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Aviation

Aviation is the activities surrounding mechanical flight and the aircraft industry. Aircraft includes fixed-wing and rotary-wing types, morphable wings, wing-less lifting bodies, as well as lighter-than-air craft such as hot air balloons and airships. Aviation history began in the 18th century with the development of the hot air balloon, an apparatus capable of atmospheric displacement through buoyancy. Some of the most significant advancements in aviation technology came with the controlled gliding flying of Otto Lilienthal in 1896. The next large step in significance came with the construction of the first powered airplane by the Wright brothers in the early 1900s. Since that time, aviation has been technologically revolutionized by the introduction of the jet which permitted a major form of transport throughout the world. Civil Aviation is one of two major categories of flying, representing all non-military aviation, both private and commercial. Most countries in the world are members of the International Civil Aviation Organization (ICAO) and work together to establish common standards and recommended practices for civil aviation through that agency. Civil aviation includes two major categories:
  • Scheduled Air Transport, including all passenger and cargo flights operating on regularly scheduled routes;
  • General Aviation (GA), including all other civil flights, private or commercial.
There are five major manufacturers of Civil Transport Aircraft:
  • Airbus, based in Europe;
  • Boeing, based in the United States;
  • Bombardier, based in Canada;
  • Embraer, based in Brazil;
General Aviation includes all non-scheduled civil flying, both private and commercial. It may include business flights, air charter, private aviation, flight training, ballooning, paragliding, parachuting, gliding, hang gliding, aerial photography, foot-launched powered hang gliders, air ambulance, crop dusting, charter flights, traffic reporting, police air patrols, and forest fire fighting. Each country regulates aviation differently, but general aviation usually falls under different regulations depending on whether it is private or commercial and on the type of equipment involved. Many small aircraft manufacturers serve the general aviation market, with a focus on private aviation and flight training. The most important recent developments for small aircraft (which form the bulk of the GA fleet) have been the introduction of advanced avionics (including GPS) that were formerly found only in large airliners, and the introduction of composite materials to make small aircraft lighter and faster. Ultralight and homebuilt aircraft have also become increasingly popular for recreational use since in most countries that allow private aviation, they are much less expensive and less heavily regulated than certified aircraft.

5 reasons why to choose Aviation as a career:

 
  • Travel Opportunities
Job in Aviation can suggest a wide range of career opportunities and overseas internships for graduates of such specialties. Whilst working for an airline can be very demanding, it’s hard to find a better industry for travel opportunities. Some of the jobs require extensive travel. Pilots and flight attendants for example could visit nearly ten cities on several different continents in one five-day shift.
  • Meeting New People
In such a dynamic, fast-paced industry, a job in the Aviation industry means that you’re part of a bigger picture, helping to keep things moving and keeping up with the speed at which things happen. Working for an airline or airport doesn’t seem to be a boring, stagnant job. It offers a variety of opportunities and communication abilities daily, not only with the people you’ll meet. This is another big reason why candidates are drawn to working for an airline or airport. It allows them to meet new people daily. Those that work in airports enjoy the chance to meet interesting people because the airport is the place through which came more than thousands of persons every day. Flight attendants also often state that they chose their job because of the variety of interesting people it enables them to meet.
  • The Opportunity to Develop your Career
As a business, it’s in the best interest of airlines and airports to continue and provide developing processes for their employees, so they ensure employees' training and career development. Along with annual reviews, some offer an annual financial incentive scheme to ensure recognition of employees' contributions.
  • Company Benefits
While airport jobs generally receive fewer travel opportunities, they are often considered well-paid jobs with excellent benefits. Working in airports gives young people a wide range of opportunities and possibilities for self-development and ensuring a successful career.
  • Lifestyle Benefits
Airlines and airports also recognize how important for them to make their employees enjoy life outside of work and to ensure their happiness and development at work. With so many benefits of working in the aviation industry, it’s not surprising that you may have decided aviation is the industry for you. Once you decide which position best matches your skills and knowledge, it’s time to try something new!
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Pharmacy

The Pharmacy Course provided by our partner Universities Georgia, Latvia, Ukraine, Uzbekistan, and Poland lasts for 5-6 years and is intended for students interested in specializing in and receiving training in the effective use of medications. Pharmaceutical studies incorporate the study of Chemical Sciences in combination with the Health Sciences. It focuses on the safe usage and application of pharmaceutical drugs.  Practical Pharmacy covers contemporary healthcare roles and clinical services, together with medication review for more traditional services including dispensing and compounding.   Physiological Sciences, Human Nutrition, Pharmacology, Professional Practice, Rural Pharmacy, Pharmaceutics, Chemistry, Microbiology, Organic and Medical Agents, Organic Chemistry, Therapeutics, and Scientific Statistics are studied during the Pharmacy Course at the University. Students will develop and draw up technological documentation for the production (manufacture) of medicines in pharmacies and pharmaceutical companies, determine the advantages and disadvantages of medication of different pharmacological groups and carry out all types of quality control of drugs. The objective of the Pharmacy Course, currently taught at our partner Universities in Georgia, Latvia, Ukraine, Uzbekistan, and Poland is to provide students with all the skills necessary for the current trends. Understanding and appreciating the importance of continuing health care for the population is essential for students. The elective practices are offered to help students develop their particular interests, which can enhance their future career opportunities. Each module is taught with the utmost attention to detail.  The medium of instruction in all our partner Universities' Pharmacy Courses is English. Some of the subjects taught in Pharmacy Courses in our partner Universities include:
  • Human Nutrition
  • Physiological Sciences
  • Human Molecular Genetics
  • Pharmaceutical Microbiology
  • Disease Processes
  • Pharmacology
  • Organic & Physical Chemistry
  • Chemistry
  • Introduction to Microbiology
  • Pharmaceutics
  • Introduction to Pharmacy
  • Pharmacy Practice
  • Pharmacokinetics
  • Organic and Medicinal Agents
  • Professional Practice
  • Rural Pharmacy Practice
  • Therapeutics
  • Scientific Statistics
The evaluation methods in our partner University studying programs may include: 
  • For theoretical courses: written exams, offering exercises in written reports or lecturing, oral exams, and computer interactive exams;
  • Practical and clinical courses: observation of the clinical performance of the students during the program, objective structured clinical examination (OSCE), objective structured lab. 
In case of successfully passing final examinations, the graduates are given the degree of Doctor of Philosophy in Pharmacy. The curriculum provides for further postgraduate education. The awarded degree is a Bachelor of Pharmacy. Students acquire the fundamentals of biomedical knowledge and obtain needed theoretical knowledge and practical skills in the different subjects of the specialty. After successful completion of the Course and passing the final examination, graduates are awarded a Pharmacy Degree. Students are trained to work in institutions of pharmacy, as well as for research work.
Find out more about Ukrainian Dentistry Course
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International Relations

About the Course

  Are you interested in learning about different cultures and people around the world? Would you like to study, live, or work abroad someday? Do you wonder why some countries are wealthy, while others are poor and some places are war-torn while others are peaceful? Would you like to understand how different regional civilizations have evolved and how these characteristics continue to affect people today? If you answered yes to any of these questions, International Relations may be the major for you. The course of International Relations is a unique course of study because it combines classes from three different departments – economics, history, and political science to create a coherent curriculum that allows students to develop their understanding of both different areas of the world (“area studies”) and the nature of interactions between people, groups, nation-states, and international organizations (“globalization”). International relations students have many different strengths. Some have a flair for foreign languages, others are fascinated by particular regions of the world and still another set of students may have a long-standing interest in an aspect of global affairs. Some students are attracted to the major because it allows them to combine courses from multiple departments, allowing them to study world regions or phenomena (like conflict, revolution, economic development, or human rights) from different disciplinary perspectives. International Relations is the study of the relations of states with each other and with international organizations and certain subnational entities — for example, bureaucracies, political parties, and interest groups. Viewpoints from other academic disciplines are often taught, including political science, geography, history, economics, law, sociology, psychology, and philosophy.

Course Curriculum

  Our world could do with a little more love and care right now. From war to poverty, deforestation to epidemics, we are living in demanding times and facing detrimental challenges. The world needs individuals who have great ambition and want to make a positive impact. Studying international relations is a great way to gain a deeper understanding of global issues. It’s an intriguing and important subject that places great emphasis on economics, culture, education, and political science and examines the impact they have on society. You’ll also learn how and why nations, governments, and individuals respond accordingly to such issues. International Relations introduce you to the world of politics and the social-historical impact of global development. You will learn about the different political systems and governing policies around the world, understanding how they connect with a broad range of international issues, such as human rights, global poverty, climate change, global ethics, etc. During a Bachelor’s in International Relations, you can expect to take classes on Economics, Politics, Government, Explaining Society, Public Policy, Business Behaviors, Global Conflicts, Global Security, Environmental Sustainability, etc. You won’t study all these subjects, but most undergraduate programs combine them in various ways and have a different approach based on their curriculum and academic objectives. There are other titles used to refer to International Relations (IR), such as International Studies, Global Studies, International Affairs, or Global Affairs. Because International Relations is a relatively new discipline, the academic approach, curriculums, and courses can vary significantly from one university to another.

Why Study International Relations?

 

Address Contemporary Global Issues

We live in a world where the overall living standard is higher than it has ever been. Yet, humanity is facing numerous problems and challenges despite our constant technological advancement and discoveries. Think in terms of poverty, hunger, inequality, environmental concerns, human trafficking, human rights, and so on. Whether you will help to implement a new public policy or collaborate with other people to implement welfare projects and events, you will improve people’s lives, change their environment and reduce the suffering and injustice which are present in the world. It’s a massive task, extremely challenging and demanding; but at the end of most of your days, you’ll feel fulfilled and proud of your work.

Develop Key Transferable Skills

The skills you’ll develop while studying International Relations can be applied in many other areas and industries. Even if you have a change of heart and decide that you no longer want to work in the International Relations field, your abilities will help you succeed in any other career. Here are some of the most important skills you’ll develop and improve as an International Relations student:
  • Public speaking, verbal & written communication
  • Gather, organize, and analyze data to gain insights
  • Cooperate with people who have different personalities, jobs, and goals
  • Evaluate ideas, concepts, and proposals and offer constructive feedback
  • Find solutions considering different cultures, interests, and mentalities
  • Handle conflicts, find common ground, and reach mutual agreements

Enjoy a Table and Lucrative Career

International Relations jobs are in high demand. This is not surprising, considering the ongoing development of the globalization process and how companies cooperate across borders and try to expand in new markets and countries.
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International Economics

About the Course 

   Economics, at its very heart, is the study of people. It seeks to explain what drives human behavior, decisions, and reactions when faced with difficulties or successes. Economics is a discipline that combines politics, sociology, psychology, and history. When you study economics, you gain a toolkit of skills, approaches, and ways of thinking that you can apply to a wide range of problems. Economics is one of the central disciplines underpinning the study of business and management and public policy. An economics degree gives you a high level of mathematical and statistical skills and the ability to apply economic principles and models to problems in business, finance, and the public sector. More broadly, economic concepts can be applied to understand the logic of complicated data, to see how things relate to each other, and to see the broader context.

Some of the Specific Skills you Develop Include:

  • Communication – presenting ideas in a well-defined framework supported by evidence that uses complex data.
  • Numeracy – handling complex data and techniques of mathematical and statistical analysis.
  • Problem-solving.
  • Analytical skills.

Importance of Studying International Economics for Future Career 

  Some careers use specific knowledge of economics, for example, banks, insurance, accountancy firms, businesses, and in government. These jobs may involve identifying financial risks or making decisions about where a company or a government should invest its resources in the future, or even how to design a bidding platform for eBay. There are also roles for economists in think tanks and consultancies that advise governments and companies on public policy, such as how to deal with the Greek debt crisis. More broadly, an economics degree helps prepare you for careers that require numerical, analytical, and problem-solving skills – for example in business planning, marketing, research, and management. Economics helps you to think strategically and make decisions to optimize the outcome. Especially in demand are people who have studied Economics and Finance as they are particularly well-prepared for jobs in banking and the financial sector, such as in accountancy firms. The well-developed methodologies used in economics have helped the subject expand into providing tools for other disciplines, such as politics, law, health, education, management, and many others. Some worry that by using the approaches of economics, the assumption is being made that people are rational in the way they behave. To counter this, economists are bringing in insights from behavioral science, psychology, and neuroscience.

Economics - Definition, Explanation, Types.

  The definition of economics is the study of how goods and services are produced, distributed, and consumed. In short, economics is the study of supply and demand. It is the theory of how markets work and wealth is distributed including how scarce resources are allocated. Economics is not just how the stock market is doing. Rather, economics refers to how people, businesses, and countries choose to spend their money. This can be viewed in both a macroeconomics and microeconomics sense. The economic theory seeks to explain the production and consumption of goods. Economics is widely studied around the world as researchers seek to better understand the impact of certain policies on the economy. For example, this can include studying the effect of gas prices going up, the effect of people incurring larger debt, the effect of government healthcare programs, and more. One of the most famous economic theories is a Keynesian economic theory named after John Keynes who suggested that government monetary and fiscal policy could stimulate business and increase employment. Types of economics include
  • Macroeconomics refers to the study of the overall economy from a wide point of view, for example, how an industry is doing, a country’s gross domestic product output, gas prices, national debt, and more. Microeconomics refers to economics on a smaller scale, such as how a family decides to spend its money or how a business establishes prices.
  • Managerial economics seeks to help business managers make logical decisions. It is the allocation of scarce resources in ways that best help a business succeed, for example, what goods and services should be produced and at what cost, or what markets should a firm enter or exit.
  • International economics is the study of how goods and services move across borders such as how tariffs affect trade, how exchange rates influence the movement of goods, or how to trade quotas affect a market.
  • Monetary economics is the framework for studying how institutions affect employment, commodity prices, interest rates, wages, production, and more.
  • Behavioral economics is the study of how psychology affects economic decision-making. Economic theory states that humans will make rational decisions whereas behavioral economics seeks to understand why humans make decisions that are not economically rational.
  • Applied economics refers to applying economic theories to real-world scenarios to help predict outcomes.
 Why Study International Economics Taking a course in economics can help you understand a wide range of topics that drive economic policy and financial decision-making. Learn about the principles of economics including both macroeconomics and microeconomics. Study theories of economic growth, economic policy, economic development, socioeconomic policy, risk management, debt sustainability, pricing models, and more. There is no doubt that to be a great economist, one has to be able to master the methods used in the profession, and have good maths and statistical skills to do this. You also need to be interested in the world around you from history to politics, to international affairs and consumer behavior in your country and worldwide, as these all impact how individuals, companies, and government.
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Business

Business and Economics Degrees and Career Prospects

  A Business Degree, such as an MBA or a Master’s in Management will cover all aspects related to conducting business. It includes managing and motivating the business team, understanding the way the company makes money and how to reinvest it, how products are advertised, and helping the company grow and develop business both at home and internationally. Graduates of Business and Management specialties in our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia have a huge amount of career opportunities and overseas internships after graduation and can choose any career path they wish, but the most popular are:
  • Management Trainee
  • Financial Management Consultant
  • Operations Analyst
  • Junior Portfolio Manager
  • Junior Economist
  • Underwriter Trainee
  • Economic Research Assistant
  • Purchasing Associate
  • Sales Representative
  • Market Research Analyst
  • Financial Advisor/Analyst
  • Audit Consultant
  • Client Associate
  • Securities Broker
  • Public Administration Assistant
  • Financial Planner
  • Investment Analyst
  • Investment Operations Associate

A Degree in Business Administration and Career Prospects

Business Administration is a branch of Business and Management that will teach you how to lead a company or business venture, keep track of performance and make crucial decisions that will result in developing a better and more profitable business. A Business Administration program in our partner Universities offers many benefits and development potential, but will also demand a lot from you. Universities are looking for determined, motivated students who will become the entrepreneurs of tomorrow. A Master in Business Administration (M.B.A.) is the perfect degree for people who either consider themselves or aspire to become natural leaders. Business students will learn how to manage a company or small business more intelligently and efficiently. Business Administration programs are also suited for students who already have work experience in a business-related or management field for 5-10 years, and are interested in taking their knowledge up a notch. Online M.B.A.s are also popular and rewarding study options for international students who can’t afford to go abroad or have any other circumstances to choose online studies. As a graduate of a Bachelor’s or Master’s in Business Administration (B.B.A. or M.B.A.) in Ukraine, your job offers will be varied and quite impressive, allowing you to become a business owner, risk management consultant, financial planner, purchasing agent, research analyst, marketing representative, quality assurance specialist, office manager.

A Degree in Economics and Business Administration

The study of Economics examines the production, allocation, and consumption of resources, how markets function, and consumer behavior. A Bachelor’s degree in Economics and Business Administration is a 4-year Undergraduate degree that is one of the most demanded specialties among students worldwide. Students of Economic specialties at our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia will examine economics on macro and micro scales, so students interested in the consumption behavior of households or the global market will gain a fundamental understanding of economics principles and systems. Bachelor`s of Economics focuses on topics such as International Trade and Finance, Economics and Public Policy, Natural Resources, the environment, and research in economics and management sciences. Graduates of Undergraduate Economics programs at our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia can go on to entry-level positions in educational institutions, financial institutions, international organizations, private sector corporations, or government, to name a few options. A Master’s in Economics goes deeper into the study process; studying processes allows every student to choose a specialization and develop oneself in the chosen field of Economics on a higher level. Master’s in Economics degree from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia allow its graduates to experience the importance of the financial flow and critically analyze a growing financial market. Modern technologies made a great impact on economic world development, therefore students of Master in Economics programs focus on modern theories of finance, quantitative analysis skills, and how economists can apply these in real-life situations. A higher degree in Economics from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia will not only allow you to work for world-famous corporations but also as a government adviser or as a consultant in the public sector.

Management Degrees

 

Project Management and Career Prospects

Project Management is an essential aspect of conducting business. People who study this specialty for Bachelor’s or Master’s degrees in our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia will learn how to be responsible for projects and strategies within an organization. Studying Project Management will teach you to meet deadlines, manage budgets and achieve the objectives set by the company. Students who graduate with degrees in Project Management from our partner Universities in European and Asian countries find job opportunities such:
  • Project Coordinators;
  • Project Analysts;
  • Industrial Production Managers;
  • Administrative Managers;
  • Quality Experts;
  • Project Assistants;
  • Project Administrators;
  • Administrative Assistant;
  • Marketing Coordinator;
  • Customer Service Manager;
  • Project coordinator;
  • Event manager;
  • Training Coordinator.

Retail management and Career Prospects

Retail management is a subdiscipline of the general field of Management that deals with overseeing the distribution and selling of products directly to consumers, in specific vending points such as shops, chain stores, markets, and malls. Retail managers are in charge of everyday operations within a retail store or department. They make a plan of promoting merchandise, organize employees, handle customer service, and supervise inventories. Retail managers also have to understand client profiles and empathize with their needs to adjust product supply and anticipate demand, to increase profits. Management graduates in European and Asian countries have a wide range of career opportunities and overseas internships and can work as managers of hotels, catering, food and beverages companies, travel agencies, and franchise chains among many others. Examples of professional positions include purchasing manager, logistics and distribution manager, personnel manager, merchandise planner, store director, or division merchandising manager.

Risk Management and Career Prospects

Risk Management is the business discipline that deals with anticipating, evaluating, and addressing possible consequences of strategic actions within an organization. Risk managers are financial experts that have the necessary knowledge, skills, and experience to identify and evaluate risk factors, and implement strategic plans to prevent or minimize losses. They are required to protect an organization’s assets and incomes, employees, reputation, and shareholders. Career prospects in European and Asian countries include titles such as financial business risk analyst, risk manager, director of corporate risk management, market risk quantitative analyst, etc. Typically, graduates in risk management are already young professionals working in small or large national companies, corporations, banks, audit firms, insurance companies, financial consultancy agencies, or governmental agencies.

Strategic Management and Career Prospects

Strategic Management is a business sub-discipline concerned with the coordination of material and human resources within an organization, to achieve long-term business goals. Strategic managers hold front roles in the process of decision-making and deal with specialized operations such as setting company objectives, evaluating the means of attaining them, formulating and implementing plans, or anticipating outcomes. Career prospects for graduates in Strategy Management include administrator, organizational manager, marketing manager, business consultant, planning specialist, brand manager, corporate service manager, development manager, or executive assistant.

Technology Management and Career Prospects

Technology Management deals with the design, development, operation, and use of technological products and services to help increase efficiency and deliver value to an organization. Technology management is closely related to other disciplines such as business intelligence and analytics, IT, user experience design, innovation management, and strategic management. Career prospects for graduates in European and Asian countries include job titles such as IT analyst, network administrator, business information manager, IT director, e-business developer, and others. Professionals operate in various areas including network technology, internet services, cyber security, system development, technical sales, or IT consulting.

Transport Management and Career Prospects

Transport Management also referred to as transportation and logistics management studies the processes involved in the planning and coordination of delivering persons or goods from one place to another. Transportation managers are responsible for the complete reception and effective shipment of cargo for a trading company. They also deal with the safe and reliable transportation of passengers, as well as developing shipment relationships and partnerships. Graduates of a Masters’s program in Transportation Management typically work in international trading and commerce, in passenger transport companies on road, rail, air, or sea. They also operate in the construction industry, national or local administration, travel agencies, supermarket chains, manufacturing companies, and many more. Some clients prefer outsourcing logistics to experts, so transportation managers can also practice in special consultancy firms.

Master in Management (MiM) Degrees

  Master in Management, or MiM, is a Postgraduate academic degree that provides obtaining general management and organization knowledge and skills. Recently, the Master in Management has developed as an affordable alternative to the Master of Business Administration (MBA), for graduates from diverse disciplinary backgrounds with little or no professional business experience who wish to transition towards a management career. Graduates of Management Masters from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia benefit from extensive career choices in many fields and industries such as Marketing, Accounting and Finance, Human Resources, Healthcare, Supply Chain Management, Consultancy, Public Administration and others. They may work as Marketing Managers, Account Managers, Financial Analysts, Budget Strategists, Business Consultants, Investment Brokers, and more.

Other Specialties

 

Entrepreneurship and Career Prospects

Entrepreneurship can be defined as a business-related area where leaders of organizations are not afraid to take risks and tackle innovative solutions to boost their business performance and ensure the highest income. Good entrepreneurs use their creativity and apply strategic thinking to create effective business plans. Career prospects for graduates in Entrepreneurship in European and Asian countries are business managers and administrators for different departments in various companies or organizations, business or financial consultants, research developers, management analysts, franchise owners, project managers, and more.

Finance and Career Prospects

Finance is a subject that analyses and interprets financial markets, economic trends, banking, assets, and liabilities, as well as investments. People who work in Finance can analyze data and then make long-term financial planning, offering recommendations based on their findings. The aim is to help governments, companies, and people make better financial decisions. Students who graduate with degrees in Finance from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia pursue careers such as financial analyst, commercial or investment banker, stock, insurance or real estate broker, economist, tax adviser, financial manager, and others.

Marketing and Career Prospects

Marketing refers to activities a company undertakes to promote the buying or selling of a product or service. Marketing includes advertising, selling, and delivering products to consumers or other businesses. Effective Marketing strategies address the right people and turn them into loyal customers who will return for future services and who will recommend your services. Graduates from Marketing Courses from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia have a wide range of career opportunities and overseas internships as Market Researchers, Advertising Account Executives, Media Planners, Public Relations Officers, Social Media Managers, and many others.

Management, Organizational Leadership, and Career Prospects

Management, Organizational, and Leadership studies comprise the knowledge necessary for planning, organizing, and supervising the resources of an organization. The Manager of an Enterprise focuses on maintaining the business competitive and meeting the goals and objectives settled by the strategic plan while employing both human and material resources. Graduates in Management, Organization, and Leadership from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia can build their careers in any area or industry that implies following a business plan. These areas include Retail, Construction, Hospitality, Tourism, IT, Supply Chain, Logistics, Manufacturing, Or Public Administration. After graduating, young specialists in Management could be part of the sales staff as Assistant Accountants or even Area Sales Managers. By mid-level, they should have positions like Sales and Marketing Manager or Operations Manager. Finally, advanced professionals become part of the Board of Directors, General Managers, or Chief Executive Officers (CEO).

Accounting and Career Prospects

Accounting is the process of communicating financial information about a business entity to relevant users or entities such as potential shareholders, creditors (including banks or vendors), financial analysts, economists, and government agencies. Accounting can be divided into two major fields: management accounting and financial accounting. Management accounting concentrates on reporting to people inside the business entity and provides information to employees, managers, owner-managers, and auditors. Accounting graduates in European and Asian countries choose from career options such as Accountant, Payroll Clerk, Economist, Tax Adviser, Management Consultant, Retail Banker, Auditor, Treasury Analyst, Cost Estimator, Anti-Money Laundering Specialist, and Chief Financial Officer.

Public Administration and Career Prospects

Public Administration is concerned with the implementation of governmental policy that serves the wide population, carrying political activity and decisions into action, and developing public programs for the well-being of society and the citizens. The aims of public administration are linked to democratic values like equality, security, and justice. Graduates with a Public Administration Degree from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia can follow careers as Charity Officers, Civil Service Administrators, Local Government Officers, Social Researchers, Education Or Healthcare Administrators, Public Affairs/Administration Consultant, Urban Planner, Budget Analyst, Labor Relation Specialist.

Human Resource Management and Career Prospects

Human Resource Management is a subdiscipline of Business and Management studies. Human Resource Management is an essential part of any business and deals with recruiting the right people for the right positions, as well as managing and offering guidance for employees during their stay in a company. Students who graduate with degrees in Human Resource Management from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia can engage in the following careers: Human Resource Officer, Office Manager, Occupational Psychologist, Career Adviser, Recruitment Consultant, Training and Development Officer, and others.

Supply Chain Management and Logistics and Career Prospects

Supply Chain Management and Logistics is a subject that deals with sourcing raw materials and components required by companies to manufacture their products. People who work in Logistics focus on improving the overall performance of the supply chain, to ensure the fastest possible delivery. A Bachelor’s or Master’s Degree in Supply Chain Management and Logistics from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia will allow you to choose from a wide range of careers paths as a Project Manager, Industry Analyst, Global Logistics Manager, Transportation Director, Supply Chain Consultant, and others.

Agribusiness and Career Prospects

Agribusiness is a sub-field of business, management, and organization studies that deals with making a profit from agriculture and corporate farming. Agribusiness includes the production, processing, and inventory of agricultural goods. It involves the management of agronomic equipment and technologies, raw materials, suppliers, workforce, and other resources involved in agriculture. Graduates in Agribusiness from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia can work in a diverse range of industries and positions from Accounting, Insurance, and Banking, to Managing Seed Production, Farm Management, International Marketing or Retail Sales. Professionals can practice in product development corporations, retail marketing firms, food processing companies, consultancy agencies, and public, governmental, or financial institutions.

Auditing and Career Prospects

Auditing refers to the process of examining financial reports and documents of an organization by a third party, independent of that organization. Ukrainian universities usually offer Postgraduate-level courses in Auditing, such as certificates, concentrations, training programs, or degrees. Auditors generally have a Degree in Accounting or Finance, and sometimes they have years of professional economical experience. Internal auditors with Degrees from Asian and European Universities typically work in the private sector, independently, or as members of an accounting team. Their services are employed by trading companies, professional firms outsourced by client companies, corporations, charity organizations, and others. External auditors usually work for governmental bodies or as associates of certified accounting offices.

Business Intelligence and Analytics and Career Prospects

Business Intelligence and Analytics is a discipline that uses digital tools and strategies to analyze business data. The gathered information is used to improve business operations, make future predictions, and adapt strategies to fit observed trends. Business Intelligence and Analytics graduates from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia have successful careers as system analysts, senior stats analysts, program developers, business operation consultants, business intelligence managers, and others.

Commerce and Career Prospects

Commerce is a sub-field of business and economics that comprises all the activities that lead to the exchange of goods and services from producers to clients. It deals with buying, selling, and investing, the distribution of products, covering market demand, and creating new business opportunities, among others. E-commerce is a branch of commerce that has rapidly evolved over the years, which implies the acquisition and sale of products via the internet. Graduates in Commerce from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia can easily find positions in corporations, small businesses, non-profit organizations, banks, outsourcing, insuring, audit and consulting firms, in governmental agencies or the E-commerce industry because trading is an essential day-to-day activity.

Corporate Communication and Career Prospects

Corporate Communication deals with the exchange of business information within and outside an organization. Corporate Communication involves mostly preserving a coherent corporate identity and promoting a positive brand icon. Graduates of Corporate Communication Courses from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia will be prepared to work as communications specialists in business, industry, public administration, and non-profit organizations. Career prospects include various positions such as Business Spokesman, Marketing Specialist, Technical Copywriter, Public Speaking Trainer, Publicity Manager, Campaign Director, or Media Planner.

Corporate Social Responsibility and Career Prospects

Corporate Social Responsibility (CSR) deals with the impact of organizational activities on society and the environment. Socially responsible enterprises offer donations and support charitable activities, and social actions, as well as degrees related to environmental studies. Graduates of CSR at our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia practice in different work environments from non-profit organizations, to corporations to governmental bodies or consultancy firms. Career prospects include strategic communicator, sustainability consultant, environmental and social risk manager, sustainability commercial director, corporate governance manager, senior ecologist, etc. Executive MBA, or EMBA, is a Graduate Academic Degree in Business Administration designed especially for working business professionals and senior executives. EMBA graduates in European and Asian countries pursue a wide range of advanced management careers in public and private organizations heads of company departments, senior decision makers, or CEOs.

Forensic Accounting and Career Prospects

Forensic Accounting or Forensic Accountancy is an interdisciplinary field that involves the use of specific accounting procedures to investigate financial statements or irregularities. Forensic accountants analyze business reports and financial evidence, and their findings can be used in legal proceedings. Graduates in Forensic Accountancy in European and Asian countries can develop careers within insurance companies, accounting and law firms, banks, police forces, government bodies, law enforcement agencies, and other organizations.

Innovation Management and Career Prospects

Innovation Management is a subdiscipline in the general field of management that implies creating, planning, and supervising new organizational trends, to support business growth. It deals with discovering new niches, imagining new services and technologies, testing breakthrough corporate practices, establishing brand extensions, and foreseeing market trends. Innovation managers in European and Asian countries typically have strategic positions in corporations, IT firms, governmental agencies, and financial institutions. They may also practice in the Investment-Banking field or may choose consultancy positions, as well as careers in research or academia.

International Business and Career Prospects

International Business is a great study choice in the increasingly connected modern world. By completing a Bachelor’s or Master’s degree in International Business, you’ll discover the processes behind the commercial exchange of goods and services and learn how international markets work. With a Bachelor’s or Master’s Degree in International Business from our partner Universities in Ukraine, Poland, Uzbekistan, Latvia, and Georgia, you can become a Business Development Manager, Data Scientist, Financial Trader, Sales Executive, Supply Chain Manager, and others.

Taxation and Career Prospects

Taxation refers to the practice of collecting money from citizens and trading companies by government institutions, to finance public institutions, goods, and services. Tax professionals can help organizations take important business decisions, by providing financial counseling and guidance. Graduates in Taxation from European and Asian Universities can work as Tax Advisors and Analysts, Investigators, Auditors, tax partners in Accounting and Law Firms, Revenue Managers, Policy Makers, and Tax Inspectors, among others. Professionals can work in accountancy and law firms, investment, insurance agencies, software companies, the public sector, or charities.
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Economics

About the Course

  Economics, at its very heart, is the study of people. It seeks to explain what drives human behavior, decisions, and reactions when faced with difficulties or successes. Economics is a discipline that combines politics, sociology, psychology, and history.  When you study economics, you gain a toolkit of skills, approaches, and ways of thinking that you can apply to a wide range of problems. Economics is one of the central disciplines underpinning the study of business and management and public policy.

Skills you Acquire

  An economics degree gives you a high level of mathematical and statistical skills and the ability to apply economic principles and models to problems in business, finance, and the public sector. More broadly, economic concepts can be applied to understand the logic of complicated data, to see how things relate to each other, and to see the broader context. Some of the specific skills you develop include:
  • Communication – presenting ideas in a well-defined framework and supported by evidence that uses complex data.
  • Numeracy – handling complex data and techniques of mathematical and statistical analysis.
  • Problem-solving.
  • Analytical skills.

Importance of Studying International Economics for Future Career

  Some careers use specific knowledge of economics, for example, banks, insurance, accountancy firms, businesses, and in government. These jobs may involve identifying financial risks or making decisions about where a company or a government should invest its resources in the future, or even how to design a bidding platform for eBay. There are also roles for economists in think tanks and consultancies that advise governments and companies on public policy, such as how to deal with the Greek debt crisis. More broadly, an economics degree helps prepare you for careers that require numerical, analytical, and problem-solving skills – for example in business planning, marketing, research, and management. Economics helps you to think strategically and make decisions to optimize the outcome. Especially in demand are people who have studied Economics and Finance as they are particularly well-prepared for jobs in banking and the financial sector, such as in accountancy firms. The well-developed methodologies used in economics have helped the subject expand into providing tools for other disciplines, such as politics, law, health, education, management, and many others. Some worry that by using the approaches of economics, the assumption is being made that people are rational in the way they behave. To counter this, economists are bringing in insights from behavioral science, psychology, and neuroscience.

Economics - Definition, Explanation, Types

  The definition of economics is the study of how goods and services are produced, distributed, and consumed. In short, economics is the study of supply and demand. It is the theory of how markets work and wealth is distributed including how scarce resources are allocated. Economics is not just how the stock market is doing. Rather, economics refers to how people, businesses, and countries choose to spend their money. This can be viewed in both a macroeconomics and microeconomics sense. Macroeconomics refers to the study of the overall economy from a wide point of view, for example, how an industry is doing, a country’s gross domestic product output, gas prices, national debt, and more. Microeconomics refers to economics on a smaller scale, such as how a family decides to spend its money or how a business establishes prices. The economic theory seeks to explain the production and consumption of goods. Economics is widely studied around the world as researchers seek to better understand the impact of certain policies on the economy. For example, this can include studying the effect of gas prices going up, the effect of people incurring larger debt, the effect of government healthcare programs, and more. One of the most famous economic theories is a Keynesian economic theory named after John Keynes who suggested that government monetary and fiscal policy could stimulate business and increase employment. Types of Economics:
  • Managerial economics seeks to help business managers make logical decisions. It is the allocation of scarce resources in ways that best help a business succeed, for example, what goods and services should be produced and at what cost, or what markets should a firm enter or exit.
  • International Economics is the study of how goods and services move across borders such as how tariffs affect trade, how exchange rates influence the movement of goods, or how to trade quotas affect a market.
  • Monetary economics is the framework for studying how institutions affect employment, commodity prices, interest rates, wages, production, and more.
  •  Behavioral economics is the study of how psychology affects economic decision-making. Economic theory states that humans will make rational decisions whereas behavioral economics seeks to understand why humans make decisions that are not economically rational.
  • Applied economics refers to applying economic theories to real-world scenarios to help predict outcomes.

Why Study Economics

  Taking a course in economics can help you understand a wide range of topics that drive economic policy and financial decision-making. Learn about the principles of economics including both macroeconomics and microeconomics. Study theories of economic growth, economic policy, economic development, socioeconomic policy, risk management, debt sustainability, pricing models, and more. There is no doubt that to be a great economist, one has to be able to master the methods used in the profession, and have good maths and statistical skills to do this. You also need to be interested in the world around you from history to politics, to international affairs and consumer behavior in your country and worldwide, as these all impact on how individuals, companies, and governments behave and make decisions.
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Management

Are you considering a degree in management? Are you wondering what you’ll be able to do with it after you graduate? You’ll be interested to know that management graduates are highly sought after by employers, and can work in almost any sector.

About the Course

  A management degree is a type of business with an emphasis on management. Business management is the art of supervising and controlling people and operations in business settings. The degree provides students with broad-based management education and helps develop business expertise across a wide range of subject areas. There are four different levels of education to pursue in the management field:
  • Associate’s Degree
  • Bachelor’s Degree
  • Master’s Degree
  • Doctorate
Many of our remarkable universities offer strong degree programs in nonprofit management, human resources management, and other related majors. Some of the most well-known universities specialize in business education, particularly those offering bachelor’s, master’s, and doctorate degrees in management.

Why Study Marketing

  The students will have a solid understanding of business, finance, economics, and marketing. They learn how to plan, direct, manage, and control business operations. This education is paired with internships, giving students a practical and well-rounded skillset they can take with them into any workplace. Graduates can continue their studies by pursuing master’s degrees in business management or business administration or other management specialization. Doctoral programs offer terminal degrees and are well suited for students interested in advanced professional positions or university teaching careers. A bachelor’s degree in management may also suffice for professional education, such as law school.

Skills You Acquire 

Every organization always strives to have people with management skills, in supervisory roles and other roles where managerial knowledge is required. Here is a list of some of the skills you will gain with a management degree:
  • Project and resource management;
  • How to interpret and use financial data;
  • Project management;
  • Planning;
  • Problem-solving;
  • An understanding of how organizations operate;
  • Logical, analytical, and critical thinking;
  • Presentation skills;
  • Supervisory abilities;
  • An understanding of economic fluctuations and other changes affecting business.

Career Prospects

There are many different career levels for management graduates. As an assistant manager, you collaborate with the rest of the management team to cover several responsibilities, including overseeing entry-level employees. A mid-level management position usually reports directly to executive management and directs a greater amount of personnel, including assistant managers. The highest levels are executive management, those who are charged with supervising all of the employees within a business. They are also responsible for supervising business operations and vendors. Many positions exist within these three levels, and job titles are usually related to a manager’s responsibility or concentration. Specialties include sales management, risk management, healthcare management, and operations management. Other examples would be a manager who oversees hiring and employment practices, known as a human resources manager; an accounting manager, responsible for financial operations; and a production manager who supervises the creation and assembly of products.
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Banking and Finance

About the Course

  Banking and Finance is a specialist degree program. It teaches the theory you need and gives a practical real-world understanding of the financial services industry and financial markets. You can study this degree program over three years or four, depending on whether you want to include a one-year industry placement. Banking and Finance is the study, acquisition, and management of money and investments. The field includes banking, credit, debt, and capital markets activities, which are all driven by economic principles and practices.

Why Study Banking and Finance

  Banking and Finance explore the dynamic, fast-paced world of money, shares, credit, and investments.  Finance is an essential part of our economy as it provides liquidity in terms of money or assets required for individuals and businesses to invest in the future. When you choose to major in Banking and Finance you will explore the systemized movement and management of money. In firms, the finance function ensures that activities are funded with equity or debt and the firms can choose a value-enhancing project and manage cash flows, risk, and liquidity in the interest of their stakeholders. Financial markets are very important and understanding the pricing of assets and derivative securities is vital. Financial intermediaries such as banks are key players in these financial markets. Banking is also a global industry with banks operating and thousands of institutions and investment houses across the world dealing with money circulation, credit, investments, financing, superannuation, and more. Finance is continuously changing which makes this subject a fascinating area to study.

Career Prospects

  This degree opens doors to careers across economic sectors. Finance professionals can work with individuals, companies, or governments, assisting with things like budgeting and analysis. Students will learn to integrate financial models, firm-specific as well as industry and economic factors in their decision-making process. Each year of your degree will give you a foundation in a set of subjects about working in banking and finance. In the third and fourth years, your knowledge will be taken to a higher level, exploring themes such as strategy, management, and risk. Employability is the cornerstone of this program. You will graduate with a combination of knowledge and practical skills that will take you forward in your career. Most of our students complete their studies on time and are employed in banks, trading houses, insurance companies, international agencies, and institutions. Some of them continue their studies in qualified Ph.D. programs. Careers in banking often provide job security because many people are always interested in money. If the economy is suffering, people want to know how to save and maximize their investments. If the economy is healthy, people want to know the best ways to spend and invest their money. They often turn to people with banking degrees for guidance.
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Accounting and Audits

About the Course

  A degree in Accounting can set students on a path to a strong career in business and finance. Accountants work for corporations, nonprofits, government agencies, and small businesses. They create financial reports, review income and expenses, prepare tax documents, and assure regulatory compliance. Some accountants even help track down financial criminals. Others take part in high-stakes investments. Accounting careers can either prove safe and predictable or exciting and dynamic, depending on the exact role. Auditing refers to the process of examining financial reports and documents of an organization by a third party, independent of that organization. Auditing is closely related to Accounting, so auditors are typically accountants or economists who specialize in evaluating financial statements of businesses to ensure the accuracy of the information. Internal auditing helps an institution to accomplish its objectives, by bringing a systematic economical approach to evaluate and improve the performance of risk management, control, and governance processes. External Auditing happens with people come from outside an organization to examine financial records and present an independent overview of the company’s financial health or legality of practices.

Skills you Acquire 

  While studying Accounting and Auditing, you will develop key skills and abilities related to numeracy and mathematical aptitudes, business acumen, economic and financial knowledge, general IT skills, self-motivation, attention to detail, as well as good time management and communication skills. Accounting and Auditing studies also include a lot of Finance knowledge. You will acquire a solid background of professional economical experience and an understanding of the financial life and inner workings of financial departments of companies and institutions.

Career Prospects 

  Internal auditors typically work in the private sector, independently, or as members of an accounting team. Their services are employed by trading companies, professional firms outsourced by client companies, corporations, charity organizations, and others. External auditors usually work for governmental bodies or as associates of certified accounting offices. At the successful completion of the degree program, you will be able to:
  • describe and apply concepts from the accounting cycle including recording transactions and preparing financial statements for proprietorship, partnership, and corporations;
  • report and explain income and retained earnings and earnings per share;
  • analyze and report cost accounting including financial and non-financial information;
  • apply management accounting principles to analyzing resource allocation and performance measurement of organizations;
  • describe and apply technical and theoretical aspects in financial reporting and auditing;
  • determine the nature and amount of evidence of internal control over financial reporting;
  • prepare tax returns for individuals and corporate firms in compliance with the requirements of tax authorities;
  • describe and apply the concepts and theories of ethics as they apply to the field of Accounting
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Information Technologies

About the Course

  Information technology is the study, development, and creation of computer-based information systems. From software applications to computer hardware, information technology, which is more commonly known as IT, uses the combination of computer and communications systems to implement, support, process, disseminate and manage information. Information technology is a rapidly growing field that offers secure positions for individuals with a minimum of a bachelor’s degree in an IT-related field. From engineering to support, some specializations deal with the different components of information technology, and students with solid technical skills, as well as an aptitude for gathering information and interpreting data, are likely to find success in this industry.

Course Curriculum

  Information technology students will have readings and lectures in addition to interactive exercises that test skills and knowledge on various computer-related subject matters. Much of the schoolwork will be about managing database systems technology, software development, and computer engineering. IT students will also learn how to improve the efficiency and capability of information systems so networks can function correctly. Some online information technology degree programs focus on varying specialties, like programming and network administration.

Required Skills

  Individuals who aspire to enter the IT field should develop solid logical and critical-thinking skills. Those who enter support positions should also possess the ability to listen, communicate and maintain a professional, calm demeanor when faced with end users and frustrating problems. Computer, component, and network designers, such as engineers and scientists, need to be able to envision the current needs and growth potential of users or businesses.

Why Study Information Technologies 

  The field of information technology, or IT, covers the support, administration, and design of telecommunications and computer systems. Some positions in this field include system analysts, software programmers, computer scientists, computer support specialists, and network and database administrators. Most careers in the IT field entail operational and design tasks related to software applications, networks, and computer hardware components. Information Technology Experts work with organizations and businesses to install and support viable computer networks that will keep systems reliable and efficient. It encompasses all software and hardware used in the creation, storage, and access of information. Examples of some technologies that IT professionals may work with include the Internet, networks, media storage devices, databases, and firewalls.

Career prospects

IT professionals perform various computer-related job duties, such as installing applications, creating databases, and designing complex networks. They also deal with data management, computer engineering, networking, software design, and administering various systems.  IT specialists bring information and applications to any business and personal setting by creating products that set up and maintain computer systems. The goal of IT professionals is to improve the efficiency and capabilities of information systems so that computer networks function properly without interruption. Some of this includes upgrading computer software, handling office computer networks, working with internal applications, customizing software, building websites, and maintaining databases. Information technology is an especially broad field, so the title of the job depends on the area of concentration. Many programs for IT focus on the three most sought-after specialties: computer systems, programming, and network administration. Website production, systems analysis, and quality assurance are just some of the exciting fields someone with an information technology degree can enter. Since IT is so broad and has job potential at literally any company, it gives students the freedom to choose another topic of interest for a minor, which is a great way to get an IT job in a specialized field. IT jobs are based on the back-end and front-end work. Back-end work supports and maintains networks and databases, whereas front-end work improves the interface and practicality of these systems. Possible career opportunities with a degree in information technology include software engineer, network engineering, computer programming, network administrator, database administrator, web producing, web development, and more.

Fastest Changing Industry

The Information Technology industry operates at a speed much faster than any other industry and for this reason, there’s always a significant demand for highly-skilled workers. With the innovations in cloud computing, big data, and cybersecurity an aspiring IT professional has many avenues to pursue and grow from. An IT professional never stops learning, and must always stay on top of the latest technological trends to be successful in the field. The more training and knowledge the IT professional has the more employable he or she will be.

Better Income

It is a well-known fact that Information Technology professionals are paid well, compared to other professionals. An IT professional with the right mix of certifications and experience can find a permanent position in either the public or private sector. Recently, many companies have been extensively hiring experts in cloud computing, cybersecurity, and network security to help enhance their current systems. Many IT jobs provide great career advancement opportunities for a dedicated and hardworking IT professional. Information technology is the field of millennials. Aspiring IT professionals must know that to succeed in the IT field they must be committed to learning and adapting to new technological advancements to stay competitive. This entails getting the right mix of experience and certifications. IT professionals that stay on top of the latest tech trends will have many career options to choose from.

Information Technology Jobs

  Information technology is a constantly expanding field as more businesses move towards computer-based enterprises. There are generally two kinds of IT jobs. Back-end work is the supporting and maintaining of networks and databases, while front-end work focuses on improving usability and interface, like website design.

Software Engineers

program code to run software products, including computer programs such as word processing and financial management. Network engineers build and sustain back-end technology by implementing a local area network (LAN) for intra-communication and a wide area network (WAN) to connect to the Internet. Making sure all workstations, routers, servers, and hubs work is part of the daily job duties. Programmers write custom software intended for specific company use. Computer systems specialists are in charge of installing, maintaining, and upgrading hardware.

Network Administrators and System Supports

improve the efficiency of a company by upgrading and building computers, downloading new software, setting up email accounts, and backing up information. These people are also responsible for emergency services, such as a security breach from a hacker or virus threats, as well as general troubleshooting. Database administrators maintain databases with back-end support from a company’s email and direct marketing campaigns. Customer preferences, demographics, and purchase histories are stored, while the database is updated, tested, archived, and repaired.

Web Producers and Developers 

translate what a company wants on its website into graphic design using HTML code. Producers update quality checks and post content on the site, as well as determine how the site will represent the company in the future. Developers, on the other hand, use Internet software and languages such as HTML and JavaScript to update information and create new pages that have images, text, and links.

Quality Assurance Analysts

work as a team to ensure that websites are carefully combed over so there are no mistakes before the site goes public. At hardware companies, QA teams supervise the production process, while at Internet companies, QA engineers check for the functionality of features, interfaces, and navigation on the site.
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Cyber Security

About the Course

  The degree in Cybersecurity program prepares students to assess the security needs of computer and network systems, recommend safeguard solutions, and manage the implementation and maintenance of security devices, systems, and procedures. The program includes instruction in computer architecture, programming, and systems analysis; networking; telecommunications; cryptography; security system design; applicable law and regulations; risk assessment and policy analysis; contingency planning; user access issues; investigation techniques; and troubleshooting.

Skills you Acquire

  • communication skills
  • management skills
  • hands-on experience in security and risk management, asset security, security engineering, communication, and network security, identity and access management, security assessment and testing, security operations, and software development security.
  • Will complete many projects sharpening their knowledge, skills, and experience.

Why Study Cybersecurity

  However, before diving into this program, it makes sense to make sure that pursuing a Cybersecurity degree is a good fit for you. Here are some of the reasons to consider pursuing a Cybersecurity degree:
  • Cybersecurity specialists make a difference. Cybersecurity professionals use their training and skills to protect critical digital infrastructure and services.
  • Cybersecurity job demand will continue to grow well into the future. The average annual growth in cybersecurity job demand, according to many employment sites, is about seven percent a year. That growth is expected to continue well into the future as the world only becomes more digitally interconnected.
  • Cybersecurity is a dynamic job that is seldom boring. Between emerging threats and new technological innovations, cybersecurity is constantly changing, which means no boring days at the office.
  • Cybersecurity professionals are in high demand. This means that finding a good job is easier than most other professions and that cybersecurity professionals are paid well.
  • Cybersecurity is considered a top job in tech. Recently, different reports named Information Security Analyst as one of the top five jobs to have in tech. The ranking is based on earning potential and job demand. Other cybersecurity jobs follow similar trends.

Career Prospects

  Earning a cybersecurity degree prepares students for careers with higher-than-average salaries in a growing field for their technical skills and knowledge. The rise of cyberattacks will likely fuel the continued demand for cybersecurity professionals. Cybersecurity professionals have become crucial across several major industries, including healthcare, finance, and business. Graduates with at least a bachelor’s degree in cybersecurity often qualify for more job opportunities and higher salaries than applicants without this credential. Potential cybersecurity careers include
  • Security Analyst;
  • Computer Forensics Analyst;
  • Security Architect;
  • Cryptographer;
  • Vulnerability Assessor;
  • Security Engineer;
  • Penetration Tester;
  • Chief Information Security Officer;
  • Security Consultant.
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Computer Engineering

About the Course

  Computer engineering is a branch of engineering that integrates several fields of computer science and electronic engineering required to develop computer hardware and software. Computer engineers usually have training in electronic engineering (or electrical engineering), software design, and hardware-software integration instead of only software engineering or electronic engineering. Computer engineers are involved in many hardware and software aspects of computing, from the design of individual microcontrollers, microprocessors, personal computers, and supercomputers, to circuit design. This field of engineering not only focuses on how computer systems themselves work but also on how they integrate into the larger picture.  Usual tasks involving computer engineers include writing software and firmware for embedded microcontrollers, designing VLSI chips, designing analog sensors, designing mixed signal circuit boards, and designing operating systems. Computer engineers are also suited for robotics research, which relies heavily on using digital systems to control and monitor electrical systems like motors, communications, and sensors.

Course Curriculum

  In many institutions of higher learning, computer engineering students are allowed to choose areas of in-depth study in their junior and senior years because the full breadth of knowledge used in the design and application of computers is beyond the scope of an undergraduate degree. Other institutions may require engineering students to complete one or two years of general engineering before declaring computer engineering as their primary focus. Computer engineering is referred to as computer science and engineering at some universities. Most entry-level computer engineering jobs require at least a bachelor’s degree in computer engineering (or computer science and engineering). Typically, one must learn an array of mathematics such as calculus, algebra, trigonometry, and some computer science classes. Sometimes a degree in electronic engineering is accepted, due to the similarity of the two fields. Because hardware engineers commonly work with computer software systems, a strong background in computer programming is necessary. According to BLS, “a computer engineering major is similar to electrical engineering but with some computer science courses added to the curriculum”. Some large firms or specialized jobs require a master’s degree.

Why Study Computer Engineering

  It is also important for computer engineers to keep up with rapid advances in technology. Therefore, many continue learning throughout their careers. This can be helpful, especially when it comes to learning new skills or improving existing ones. For example, as the relative cost of fixing a bug increases the further along it is in the software development cycle, there can be greater cost savings attributed to developing and testing for quality code as soon as possible in the process, particularly before release. Computing and computer technology are part of just about everything touching our lives today, from the cars we drive to the movies we watch to the many ways we all interact with each other (not to mention with businesses and the government). Understanding the many facets of computing is a necessary skill for any educated person in the 21st century. Whether you want to create the next hot application or simply want to map your next big idea for the boss, studying computing will give you a competitive edge, the ability to solve complex problems, and a career that will never be obsolete. To keep your career on the cutting edge and marketable in any business environment, consider the following reasons why studying computer engineering is a sound investment:

Career Prospects

  This is the Digital Age and computer programs have infiltrated every aspect of our lives. Computer Engineers theorize, design, develop, and apply the software and hardware for the programs we use day in and day out. So, having computer engineers is pretty important. Computer engineers are the ones who have made our lives easy with everyday innovation. Such a creative field it is, studying computer engineering helps you widen your creative horizon and provide solutions to problems people haven’t thought about yet. There are lots of jobs, and they are high paying Computing jobs are the highest in number in terms of availability. There are hundreds of areas in which a computer engineer can work, and every area makes a difference. Astoundingly, they are among the high-paying jobs in the world.

Excellent Job Satisfaction 

That’s right! Money isn’t the only bonus to getting a job in Computer Science or IT. This sector has one of the highest rates of job satisfaction around. A recent study in the UK found that job satisfaction in IT is double that of the national average for other work sectors. Two of the major reasons are the freedom of work they have and the flexibility of work they are provided with.

Opportunities for True Creativity and Innovation

Computer engineering is about much more than programming; it is about inventing and building solutions. A computer engineer is an artist whose canvas may be a smartphone or PC display and whose paints and brushes are programming languages and development environments. Can you now imagine a world without Instagram, Snapchat, Facebook, or Twitter? All of these were created by some college students, and you know who. With a major in computer engineering degree, only the sky is the limit.

Limitless Future Opportunities

Computer engineers will indeed transform what the Internet will be like in the next 20 years. Like the rest of the infrastructure, the Internet will eventually seem to disappear by becoming ubiquitous. Developing the Internet of Things (IoT) will require specialized skills and computing expertise. By 2030, so many everyday items, appliances, and vehicles will be online that their numbers will far exceed the Earth’s population. And of course, making these networks of devices sufficiently robust and resilient will be a challenge for current and future computer engineers. People’s dependency on computers and devices will increase so much that computer engineers will have so many things to do. So, if you are considering studying computer engineering, you are making the right decision. The future awaits innovative engineers like you who can transform the world and make things easier for people. There will be a time when everything will be digitized, and everything will be easily possible – and computer engineers like you will make that possible.
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Software and Hardware Engineering

About the Course

  Computers are becoming increasingly accessible, user-friendly, and reliable because hardware and software engineers across all industries are working to design, develop and test new strategies and ideas daily. If you’re passionate about computer design, operations, or maintenance, hardware or software engineering may be the industry for you. This professionally accredited course focuses on the engineering and integration of hardware and software systems. The course encourages you to think creatively and independently and aims to prepare you to meet the challenges of the rapidly changing technological environment. This course is designed to bridge the gap between electronics/hardware engineering and computer science/software engineering. The course covers most aspects of software while focusing on advanced hardware design and system design based on microcontrollers. Hardware engineering is the act of designing, developing, testing, and producing physical computer systems. Hardware engineers are typically detail-oriented and have extensive knowledge about all physical components of a computer system.

Hardwear and Software Engineering Difference

 

Hardwear Engineering

A hardware engineer’s job duties may include:
  • Working in a lab to run tests and analyze data
  • Troubleshooting processes related to computer hardware functionality
  • Helping a company or organization update and repair computer systems
  • Creating models and prototypes of new systems
  • Monitoring the production, installation, and manufacturing of computer hardware systems
  • Assembling and testing computer parts like circuit boards, chips, and processors
Software engineering is the process of designing, developing, and testing computer software programs such as online games, applications, network control systems, and operating systems. Software engineers typically work in teams to develop and troubleshoot computer programs, often using their creative and analytical skills in the process.

 Software Engineering

A software engineer’s job duties may include:
  • Drawing and outlining software diagrams and models for developers to code
  • Researching to develop more user-friendly programs
  • Testing and monitoring a software program’s performance
  • Updating existing software systems
  • Collecting and analyzing data to track software performance and planning for future updates
  • Testing and monitoring a software program’s performance
  • Overseeing the implementation of new software systems
Both hardware and software engineers work closely with computers to design, maintain and develop operating systems. However, hardware engineers focus on the physical components of a computer system while software engineers work on the virtual aspects. For example, a software engineer probably designed code for your favorite computer game, and a hardware engineer provided the appropriate physical computer system to create and design that game. Both hardware and software engineering job duties require extensive knowledge and experience with computers. 

Skills Acquired 

  Hardware and software engineers both need strong problem-solving, critical thinking, and operations analysis skills to excel in their fields. However, both jobs also require different, specific sets of skills to be successful. Hardware and software engineering skills include:
  • Problem-solving
  • Systems Evaluation
  • Organization
  • Technology design
  • Mathematics
  • Quality control analysis
  • Multi-tasking
  • Data collection and analysis
  • Computer installation
  • Programming
  • Computer instruction and training
  • Collaboration
  • Time management
  • Coordination

Career Prospects

  Both hardware and software engineers need at least a bachelor’s degree to work in the field. Most computer engineers get their degrees in computer science, software engineering, computer engineering, or related fields. Employers also may seek out computer engineers with master’s degrees, internship experience, and additional training certifications to find the most qualified and knowledgeable candidates. Both hardware and software engineers need to be extremely comfortable with computer operations to be successful in the industry.
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Web-Development

About the Course

  A Web Development degree prepares students to build and design websites for organizations and individuals. Students develop technical skills in web design, communication, and problem-solving. As a specialized subfield of computer science, a web development degree makes sense for students looking to pursue careers in web development, web design, or other closely related fields. Web development majors develop practical, relevant skills throughout their education. Graduates can hit the ground running when they start their first web development jobs.

What is Web Development

  Web developers produce sites and systems on the World Wide Web for organizations. The sites might be purely for information sites, but they are based on Web information systems that combine analysis, design and authoring with multimedia development and traditional computing skills, particularly programming and using databases. Web development involves: 
  • Creating dynamic content for a site
  • Programming its special features
  • Selecting and setting up the proper software
  • Assessing the organization’s hosting needs
  • Making sure the entire process runs smoothly
A Web developer, or Internet developer, is often responsible for site design, creation, and day-to-day operation. Again, the job title might differ from company to company. Many companies contract with consultants or freelancers rather than train staff to create an entire site. They might use an on-site staff to keep the site operating and to update it periodically. Other companies might hire a Web developer to create the site and maintain it once it is in operation. The responsibilities or required skills for a Web developer can be divided into three categories. Design skills involve content development, graphics and layout, and security. Technical skills are needed to write code, develop databases, and implement testing. Management skills are used to evaluate the hardware and software systems, train other designers and developers, coordinate with other company personnel, and provide customer service.

Why study Web Development

  Web development is the process of building a website, right from designing to implementing to maintaining it. Web development is now more cost-effective than ever and plays a vital role in developing interactive sites. In today's modern world, we visit websites and web applications daily. From shopping for products on the internet to looking for information about certain topics, everything is done on the World Wide Web. Websites have become an important part of the Internet industry. Almost every business relies on a personalized space on the Web to build an audience who are interested in their brand. Not just businesses, websites are also created for portfolios, charities, funding, blogs, events, and more.  Web development jobs are on the rise, and there’s no doubt about that. Web Development is amongst the best careers for those who want ample opportunities for growth, flexibility, and job security

Career Prospects

  Most larger firms prefer to hire job seekers with several years of experience in Web development. While in college, be sure to take advantage of internships or part-time jobs. Even volunteering for nonprofit firms or developing Web sites on your own can be added to your resume to demonstrate your capabilities to potential employers. After graduating, expect to move into a smaller company and perform a variety of Web development and design tasks rather than jumping straight into a big corporation.  Every Web site needs a developer to maintain or improve it. Therefore, opportunities are plentiful, although not all staffers will have the title of “Web developer.” People have applied different terms to the position and might even have mixed and matched some of the requirements. A person with a good grounding in the principles of Web development has the potential to succeed in a variety of areas:
  • Web Administrator;
  • Web Designer;
  • Webmaster;
  • Web Programmer;
  • Web Application Developer;
  • Web Interface Designer;
  • Web Publisher;
  • Web Server Developer;
  • Web Technologist.
Education serves as the first step on your journey toward a career in web development. Don’t be afraid to break things. If you’re not breaking things, you’re not learning.
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Programming

About the Course

  If you are interested in technology and enjoy solving problems, a computer programming degree program might be a great way to start a new career. Now is a great time to earn your degree because the demand for qualified computer programmers is increasing. A computer programming degree paves the way to lucrative programming careers and in-demand information technology (IT) occupations. Programmers transform program designs into code and ensure that software programs and computer applications run correctly. Most professionals specialize in several programming languages.  Computer programming can be as simple as adding numbers or as complex as creating a detailed delivery schedule for a national business.

Computer Programming Degrees 

  Computer programming is not complicated, but it can be intimidating to prospective students without any prior knowledge of technology. There are many different coding languages, coding practices, software development knowledge, and other computer science-related topics that can be difficult to understand. However, once you learn how to code, it gets much easier. The degrees you can get in computer programming include bachelor’s, master’s, and Ph.D. degrees. Students usually start with a computer science undergraduate degree before continuing to a graduate degree. Completing a degree from a highly recognized university like ours will almost guarantee you any job you apply for. Having a degree on your resume also likely leads to higher base salaries and less competition. It puts you above those without one in the eyes of potential employers.

Why Study Computer Programming

  We’re living in an era of technology, and technological growth is nowhere near stopping. As the use of technological devices grows every year, there will always be a high demand for programmers. Learning computer programming offers a lot of benefits:
  • High-Paying Jobs;
  • Technical Skills – Computer programmers learn in-demand technical skills. Most specialize in several programming languages. Professionals also develop general IT skills applicable to other tech positions;
  • Room to Grow – Experienced computer programmers may transition into higher-paying careers in software development or computer and information systems management. They can also pursue other IT management jobs;
  • Networking Opportunities and Job Search Help – Most universities with computer programming degrees offer career services like resume writing assistance, interview preparation, and access to job boards and professional networking events.

Career Prospects 

  In a computer programming degree program, you will learn how to code in different programming languages, debug existing programs, and configure operating systems. An undergraduate degree prepares graduates for technical roles. On the other hand, a graduate degree, such as a master’s degree, teaches students advanced theory and applications of technology. With a master’s degree, graduates can work in designing and project management roles for a higher salary. A Ph.D. degree prepares graduates to work as academic researchers. Top Computer Programming Bachelor’s and Master’s Degree Jobs:
  • Software Engineer
  • Application Developer
  • Systems Architect
  • Computer Systems Engineer
  • Video Game Developer
  • Lead Programmer
  • Software Consultant
  • Computer Research Scientist
  • Computer Network Architect
  • Computer Systems Security Analyst
An undergraduate degree will work fine to get you in with potential employers. But a graduate degree will give you a higher chance of employment and much higher salaries. A graduate degree will take a few additional years to complete. It will take two years for a master’s degree and another two for a doctorate. But, if you are willing and can put in the time, you will be able to benefit greatly in your future career. Start by going after a bachelor’s degree. Once further down the road, you can decide whether to go for a master’s or doctorate.
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Artificial Intelligence

What is Artificial Intelligence

  Given its increasing role in the world, students intent on majoring in engineering or computer science may want to seriously consider specializing in AI. Artificial Intelligence, or machine intelligence, is concerned with the understanding and development of intelligent software and hardware systems. While the area has existed for more than 30 years and emerged from interdisciplinary research in computer science, neuroscience, and electrical engineering, it was limited until the past ten years by the limited availability of requisite computing power. The recent widespread applications utilizing machine learning and data mining were made due to the availability of this necessary computing power. As a result, AI applications are now available in a multitude of fields such as automation/autonomy, manufacturing, transportation, health, security, and others. Future trends will likely include plug-in AI computer chips that can be added to various devices/systems enabling greater intelligent capabilities in said devices/systems.

About the Course

  The degree syllabus includes artificial intelligence theory, methodologies, and applications infused throughout the program. You’ll also learn about applications that are reliant on artificial intelligence technologies, such as robotics, autonomous systems, intelligent control, and smart systems and devices. Upon graduating from this program, you’ll be able to develop intelligent agents that are part of autonomous systems mimicking human behavior and capable of performing tasks autonomously and intelligently. Your studies will focus on theory and algorithms for learning, data analysis, optimization, and decision-making. Also, the program trains students in the theoretical foundations, techniques, methodologies, and applications of artificial intelligence, to contribute to the diffusion and advancement of knowledge and skills on this subject and its applications, thus promoting technological innovation and fostering the economic and social development of our country. Graduates of the Artificial Intelligence program will have highly interdisciplinary knowledge and skills.

Course Curriculum

  Students will receive solid training in the fundamentals of some areas of computer science, mathematics, physics, statistics, and cognitive sciences, with a focus on the theoretical bases and techniques of artificial intelligence. They will also have ethical and legal training as required to understand the constraints that limit a socially acceptable use of these techniques. Students prepare for future-oriented AI uses by applying computer science approaches and AI concepts as they develop solutions to real-world projects within production studio settings

Career Prospects 

  Artificial Intelligence or AI career opportunities have escalated recently due to its surging demands in industries. The hype that AI will create tons of jobs is justifiable. A career in AI looks more promising than any other job available these days. Artificial Intelligence is, therefore, a lucrative job opportunity that will help in the advancement of the career opportunities of the aspirants massively. Employers need AI talent to fulfill the company’s technological requirements. Thus, a career in AI is not only attracting job-seekers towards it but is witnessing immense growth. To establish a career in AI, job hunters need to possess relevant technical skills. This will therefore help them to identify the accurate candidate possessing the skillset to work in the field of job roles in Artificial Intelligence. Abundant AI career opportunities are present owing to wide applications in different fields.
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Civil Engineering

What is Civil Engineering 

  Civil engineering is a professional engineering discipline that deals with the design, construction, and maintenance of the physical and naturally built environment, including public works such as roads, bridges, canals, dams, airports, sewerage systems, pipelines, structural components of buildings, and railways. Civil engineering is traditionally broken into a number of sub-disciplines. It is considered the second-oldest engineering discipline after military engineering, and it is defined to distinguish non-military engineering from military engineering. Civil engineering can take place in the public sector from municipal public works departments through to federal government agencies, and in the private sector from locally based firms to global Fortune 500 companies.

History of Civil Engineering 

  Throughout ancient and medieval history most architectural design and construction were carried out by artisans, such as stonemasons and carpenters, rising to the role of a professional builders. Knowledge was retained in guilds and seldom supplanted by advances. Structures, roads, and infrastructure that existed were repetitive, and increases in scale were incremental. One of the earliest examples of a scientific approach to physical and mathematical problems applicable to civil engineering is the work of Archimedes in the 3rd century BC, including Archimedes Principle, which underpins our understanding of buoyancy, and practical solutions such as Archimedes’ screw. Brahmaputra, an Indian mathematician, used arithmetic in the 7th century AD, based on Hindu-Arabic numerals, for excavation (volume) computations.

About the Course 

  Civil engineering is the application of physical and scientific principles for solving the problems of society, and its history is intricately linked to advances in the understanding of physics and mathematics throughout history. Because civil engineering is a broad profession, including several specialized sub-disciplines, its history is linked to knowledge of structures, materials science, geography, geology, soils, hydrology, environmental science, mechanics, project management, and other fields.

Courses of Civil Engineering

If you study civil engineering at the undergraduate level, you’ll learn to apply mathematics and scientific knowledge (particularly physics) to real-life situations and problems that arise from creating and maintaining structures, considering environmental, financial, legal, and ethical considerations. At its core, civil engineering is a combination of many scientific specialisms, including mechanics, hydraulics, geotechnics (using knowledge of the earth’s crust to solve construction problems), materials science, and statistical analysis. As such, the study of these foundational elements will feature heavily in the early years of civil engineering degrees. As well as the more scientific side, those who study civil engineering will get to develop their design skills, particularly computer-aided design. Project work is central to the subject, meaning that in the latter years of your degree, you will be able to complete your own design projects individually or within a team. Undergraduate civil engineering degrees will typically be three or four years in length and will feature a mixture of lectures and lab work. There will also be an emphasis on working within a team, as this is considered a key skill for anyone pursuing a civil engineering career. Those who study civil engineering may also have opportunities to participate in field trips and complete industry placements, either as a ‘year in industry’ or for shorter periods.

Duties of Civil Engineers

  Civil engineers typically do the following:
  • Analyze long-range plans, survey reports, maps, and other data to plan and design projects;
  • Consider construction costs, government regulations, potential environmental hazards, and other factors during the planning and risk-analysis stages of a project;
  • Compile and submit permit applications to local, state, and federal agencies, verifying that projects comply with various regulations;
  • Oversee and analyze the results of soil testing to determine the adequacy and strength of foundations;
  • Analyze the results of tests on building materials, such as concrete, wood, asphalt, or steel, for use in particular projects;
  • Prepare cost estimates for materials, equipment, or labor to determine a project’s economic feasibility;
  • Use design software to plan and design transportation systems, hydraulic systems, and structures in line with industry and government standards;
  • Perform or oversee surveying operations to establish building locations, site layouts, reference points, grades, and elevations to guide construction;
  • Manage the repair, maintenance, and replacement of public and private infrastructure;
  • Civil engineers also must present their findings to the public on topics such as bid proposals, environmental impact statements, or property descriptions;
  • Many civil engineers hold supervisory or administrative positions ranging from supervisor of a construction site to city engineer, public works director, and city manager. As supervisors, they are tasked with ensuring that safe work practices are followed at construction sites.
Other civil engineers work in design, construction, research, and teaching. Civil engineers work with others on projects and may be assisted by civil engineering technicians.

Civil Engineers Specialization

  Civil engineers prepare permit documents for work on projects in renewable energy. They verify that the projects will comply with federal, state, and local requirements. These engineers conduct structural analyses for large-scale photovoltaic, or solar energy, projects. They also evaluate the ability of solar array support structures and buildings to tolerate stresses from wind, seismic activity, and other sources. For large-scale wind projects, civil engineers often prepare roadbeds to handle large trucks that haul in the turbines. Civil engineers work on complex projects, and they can achieve job satisfaction by seeing the project reach completion. They usually specialize in one of several areas.

Construction Engineers 

manage construction projects, ensuring that they are scheduled and built in accordance with plans and specifications. These engineers typically are responsible for the design and safety of temporary structures used during construction. They may also oversee budgetary, time-management, and communications aspects of a project.

Geotechnical Engineers 

work to make sure that foundations for built objects ranging from streets and buildings to runways and dams are solid. They focus on how structures built by civil engineers, such as buildings and tunnels, interact with the earth (including soil and rock). In addition, they design and plan for slopes, retaining walls, and tunnels.

Structural Engineers 

design and assess major projects, such as buildings, bridges, or dams, to ensure their strength and durability.

Transportation engineers

 plan, design, operate, and maintain everyday systems, such as streets and highways, but they also plan larger projects, such as airports, ship ports, mass transit systems, and harbors. The work of civil engineers is closely related to the work of environmental engineers.
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Mechanical Engineering

What is Mechanical Engineering

  Technically, mechanical engineering is the application of the principles and problem-solving techniques of engineering from design to manufacturing to the marketplace for any object. Mechanical engineers analyze their work using the principles of motion, energy, and force—ensuring that designs function safely, efficiently, and reliably, all at a competitive cost. Mechanical engineers make a difference. That’s because mechanical engineering careers center on creating technologies to meet human needs. Virtually every product or service in modern life has probably been touched in some way by a mechanical engineer to help humankind. This includes solving today’s problems and creating future solutions in health care, energy, transportation, world hunger, space exploration, climate change, and more.

About the Course

  Being ingrained in many challenges and innovations across many fields means a mechanical engineering education is versatile. To meet this broad demand, mechanical engineers may design a component, a machine, a system, or a process. This ranges from the macro to the micro, from the largest systems like cars and satellites to the smallest components like sensors and switches. Anything that needs to be manufactured—indeed, anything with moving parts—needs the expertise of a mechanical engineer.  Skills you Acquire To be a successful mechanical engineer, some of the most important skills you can develop are:
  • Problem-solving: essential to solving all the complex puzzles that stand between you and the perfect mechanical product/device/system;
  • Creativity: the only way to come up with innovative solutions, see what others do not, and create something from nothing;
  • Communication: needed to work with your team, and even more important when explaining to clients and users how to use your product or solutions;
  • Teamwork: mechanical engineers often work in groups, which helps them brainstorm ideas, compare suggestions, and find the right answer to a given challenge or task;
  • Math skills: solving mechanical engineering problems most often requires the use of mathematical principles, like Calculus or Statistics.
Whoever you are and whatever you choose to do, your forming years are important. This applies to you too, aspiring mechanical engineer! The more cultures and people you get to know, the more you learn about different ways to find solutions to problems

Duties of  Mechanical Engineers

  Mechanical engineering combines creativity, knowledge, and analytical tools to complete the difficult task of shaping an idea into reality.  This transformation happens at a personal scale, affecting human lives on a level we can reach out and touch like robotic prostheses. It happens on the local scale, affecting people in community-level spaces, like with agile interconnected microgrids. And it happens on bigger scales, like with advanced power systems, through engineering that operates nationwide or across the globe. Mechanical engineers have an enormous range of opportunities and their education mirrors this breadth of subjects. Students concentrate on one area while strengthening analytical and problem-solving skills applicable to any engineering situation. Technology itself has also shaped how mechanical engineers work and the suite of tools has grown quite powerful in recent decades. Computer-aided engineering (CAE) is an umbrella term that covers everything from typical CAD techniques to computer-aided manufacturing to computer-aided engineering, involving finite element analysis (FEA) and computational fluid dynamics (CFD). These tools and others have further broadened the horizons of mechanical engineering.

Career Prospects

  Society depends on mechanical engineering. The need for this expertise is great in so many fields, and as such, there is no real limit for the freshly minted mechanical engineer. Jobs are always in demand, particularly in the automotive, aerospace, electronics, biotechnology, and energy industries. Here are a handful of mechanical engineering fields. In statics, research focuses on how forces are transmitted to and throughout a structure. Once a system is in motion, mechanical engineers look at dynamics, or what velocities, accelerations, and resulting forces come into play. Kinematics then examines how a mechanism behaves as it moves through its range of motion. Materials science delves into determining the best materials for different applications. A part of that is materials strength—testing support loads, stiffness, brittleness, and other properties—which is essential for many construction, automobile, and medical materials. How energy gets converted into useful power is the heart of thermodynamics, as well as determining what energy is lost in the process. One specific kind of energy, heat transfer, is crucial in many applications and requires gathering and analyzing temperature data and distributions.  Fluid mechanics, which also has a variety of applications, look at many properties including pressure drops from fluid flow and aerodynamic drag forces. Manufacturing is an important step in mechanical engineering. Within the field, researchers investigate the best processes to make manufacturing more efficient. Laboratory methods focus on improving how to measure both thermal and mechanical engineering products and processes. Likewise, machine design develops equipment-scale processes while electrical engineering focuses on circuitry. All this equipment produces vibrations, another field of mechanical engineering, in which researchers study how to predict and control vibrations. Engineering economics makes mechanical designs relevant and usable in the real world by estimating manufacturing and life cycle costs of materials, designs, and other engineered products.

Future of Mechanical Engineering

Breakthroughs in materials and analytical tools have opened new frontiers for mechanical engineers. Nanotechnology, biotechnology, composites, computational fluid dynamics (CFD), and acoustical engineering have all expanded the mechanical engineering toolbox. Nanotechnology allows for the engineering of materials on the smallest of scales. With the ability to design and manufacture down to the elemental level, the possibilities for objects grow immensely. Composites are another area where the manipulation of materials allows for new manufacturing opportunities. By combining materials with different characteristics in innovative ways, the best of each material can be employed and new solutions found. CFD gives mechanical engineers the opportunity to study complex fluid flows analyzed with algorithms. This allows for the modeling of situations that would previously have been impossible. Acoustical engineering examines vibration and sound, providing the opportunity to reduce noise in devices and increase efficiency in everything from biotechnology to architecture. Careers in Mechanical and Manufacturing Engineering range over a broad scope. Mechanical and manufacturing engineers research, design, build, test, maintain and improve all manner of things. These include power plants, renewable energy systems and electrical generators, robots, computer systems, and aircraft engines and cars.  In recent times, mechanical and manufacturing engineers have had to adapt to the changing needs of the technology era. Now they design bionic limbs and prosthetic joints, develop high-performance composite materials, and work on more flexible manufacturing processes. As technology demands it, these engineers respond with an ingenious invention or more efficient process.
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Automobile Engineering

About the Course

 

Automobile Industry 

is a gigantic sector and nowadays, it is one of the indispensable parts of the industry as it plays an important role in commutation. With the advent of technology, almost every day, a new automotive product is introduced in the market and therefore, those who study Automotive/Automobile engineering have to keep themselves updated with the current norms of the industry.

Automobile engineering

is one of the most sophisticated courses in engineering which involves the design, manufacturing, modification and maintenance of an automobile such as buses, cars, trucks and other transportation vehicles. This field of engineering is research-intensive and requires professionals to be educated and committed to their automotive engineering specialties. This field of engineering involves the direct application of mathematics in the design and production of vehicles. Engineering disciplines that may be practiced in this field include safety engineering, vehicle electronics, quality management, and fuel economy and emissions. Automotive engineering may also be referred to as “automobile engineering”. Automotive engineers, also referred to as “automobile engineers”, work with other engineers to enhance the technical performance, aesthetics, and software of vehicles. Common responsibilities of an automotive engineer include designing and testing various components of vehicles, including fuel technologies and safety systems. They may also come up with and design new vehicle models or vehicle systems using engineer design software.

Duties of an Automotive Engineer

  Common duties of an automobile engineer include:
  • Using computerized models to determine the behavior and efficiency of a vehicle;
  • Assessing the safety and environmental components of an automotive project;
  • Preparing design specifications;
  • Creating plans and drawings for new vehicle products;
  • Investigating instances of product failure;
  • Researching, developing and producing new vehicles or vehicle subsystems.

Skills Acquired to Become an Automobile Engineer 

  Skills that are necessary to work in the automobile engineering field include:
  • Data analysis skills - automotive engineers are responsible for performing and analyzing various automobile tests. These professionals must be able to efficiently and effectively read and interpret data to improve vehicle performance and production. 
  • Technical skills - automobile engineers must have a variety of technical skills related to this industry, including strong working knowledge of automobile maintenance and function.
  • Teamwork skills - many automobile engineers work as a team to complete projects. This requires professionals to have strong teamwork skills and know how to effectively work with other individuals on a daily basis. 
  • Problem-solving skills - Engineers in the automotive industry must be able to think creatively and originally to solve specific vehicle-related problems and create new solutions.
  • Commercial awareness - these professionals must stay abreast of industry trends as well as the latest in automobile technology and regulations.

Career Prospects

  As an automotive engineer, you'll be able to choose from a range of career options. It's possible to advance to supervisory engineer roles and senior positions within project team management, general management, and consultancy. You'll tend to specialize in the day-to-day management of engineering operations. As a chartered engineer (CEng) you might have a more strategic role, planning, researching and developing new ideas, and streamlining management methods. You could also choose to move into a related career area, for example, environmental design. If you have worked a lot in creative design, you could move into the graphic design field. Teaching and lecturing at universities or colleges is a possibility if you have a master's or Ph.D. in mechanical or automotive engineering. Once you've built up several years of experience, it's possible for you to go into contracting work, moving between short-term projects. This type of work can provide variety, excellent financial benefits, and the opportunity to work abroad. However, it generally lacks the stability and benefits associated with a permanent position with a large company
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Chemical Engineering

What is Chemical Engineering

  Chemical engineering is a multi-disciplinary branch of engineering that combines natural and experimental sciences (such as chemistry and physics), along with life sciences (such as biology, microbiology, and biochemistry) plus mathematics and economics to design, develop, produce, transform, transport, operate and manage the industrial processes that turn raw materials into valuable products. Many of the processes within chemical engineering involve chemical reactions, and the field takes cues from chemists who are looking for new ways to create products and investigate the mechanisms within chemical reactions. Chemical engineers then translate this chemical information to formulate designs. As such, there are two broad subgroups that better answer the question “What is chemical engineering?” – more precisely: Designing, manufacturing, and operating plants and machinery for carrying out large-scale industrial chemical, biological or related processes Developing new or adapted substances for a wide range of products Chemical engineers may be specialized in one or the other subgroup, but work from both sides will be required in order to create a final product. They will need to consider economic viability, management of resources, health and safety, sustainability, and environmental impact. Despite its youth, chemical engineering has changed a lot in recent years. It’s traditionally just been about fuel (oil and gas), but now it’s much, much more than that. Power is still a big part of chemical engineering, but many graduates now go into the sustainable and ecological side of fuel. Many more will play their part in developing new materials, in nanotechnology, in mineral processes, and in bioengineering.

About the Course

  A degree in chemical engineering will give you the talent and opportunity to make a real difference in the world, and get paid a handsome fee for doing so. As you start your course, you’ll be building a foundation of knowledge in the subject, so expect a lot of introductory modules which span chemistry, physics, and maths. You’ll begin to specialize in the second and third years, as you understand more about chemical engineering as a science. And you’ll be developing this understanding in a range of environments. From mastering theories and calculations in the lecture hall to running simulations in computer rooms, to putting your knowledge into practice in laboratories, to seeing them in action during site or visit fields – it’s fair to say you won’t be sitting still for long.

Course Structure

Typical modules for courses in this subject include
  • Chemical engineering design;
  • Chemistry and processes;
  • Electrical and information engineering;
  • Engineering computation;
  • Fluid mechanics, mass and heat transfer, thermodynamics;
  • Introduction to biochemical engineering;
  • Practical skills in chemical engineering;
  • Programming skills for engineers;
  • Structures, materials, and dynamics.

Skills Acquired

  What skills are commonly gained from a degree in chemical engineering?
  • Special knowledge of chemical engineering theories, methods, and practices;
  • Understanding of manufacturing processes;
  • Knowledge of terminology used in the chemical, minerals and material industries;
  • Advanced numeracy skills;
  • Advanced laboratory skills;
  • Ability to analyze complex data sets and form conclusions;
  • Clear understanding of the commercial application of science, chemical engineering and general engineering;
  • Commercial awareness of chemical engineering field(s);
  • Good understanding of IT and computer-aided design (CAD) software;
  • Awareness and understanding of ethical issues within chemical engineering;
  • Written and oral communication skills, including presentations and report writing, to an acceptable academic standard;
  • Time management, independent learning and organization skills;
  • Problem-solving and decision-making skills;
  • Independent research and study skills;
  • Analytical and critical thinking skills;
  • Teamwork and leadership skills;
  • Project management skills;
  • Ability to think creatively;
  • Good attention to detail.

Career Prospects

  Undergraduate-level chemical engineering degrees can last from three to five years. The duration varies based on the institution and the country in which you study but also depends on whether you choose to study a Bachelor of Engineering (BEng) or a Master of Engineering (MEng). The degree allows students to develop a greater depth of chemical engineering skills and knowledge in chemical engineering and complete a wider range of project work. Once you have accumulated the necessary work experience, qualifications, skills, and knowledge, an accredited MEng also allows you to gain the status of Chartered Chemical Engineer. You may also be able to combine chemical engineering with other disciplines such as environmental engineering, business management, foreign languages, and subjects in the humanities. A degree in Chemical Engineering is highly vocational. However, if you decide not to continue as an engineer, opportunities can be found in management or analytical roles – including supply chain, risk management, or finance.  Related fields include
  • Biotechnologist;
  • Chemical engineering;
  • Consultant engineering;
  • Design engineering;
  • Energy coordinator;
  • Geochemist;
  • Nuclear engineering;
  • Product development scientist;
  • Project management;
  • Risk management;
  • Senior Process Engineering.
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Electrical Engineering

What is Electrical Engineering

  Electrical engineering is an engineering discipline concerned with the study, design, and application of equipment, devices, and systems which use electricity, electronics, and electromagnetism. It emerged as an identifiable occupation in the latter half of the 19th century after the commercialization of the electric telegraph, the telephone, and electrical power generation, distribution, and use. Electrical engineering is now divided into a wide range of fields, including computer engineering, systems engineering, power engineering, telecommunications, radio-frequency engineering, signal processing, instrumentation, and electronics. Many of these disciplines overlap with other engineering branches, spanning a huge number of specializations including hardware engineering, power electronics, electromagnetics and waves, microwave engineering, nanotechnology, electrochemistry, renewable energies, mechatronics, and electrical materials science.

Electrical Engineers Degrees

  Electrical engineers typically hold a degree in electrical engineering or electronic engineering. Practicing engineers may have professional certification and be members of a professional body or an international standards organization. These include the International Electrotechnical Commission (IEC), the Institute of Electrical and Electronics Engineers (IEEE), and the Institution of Engineering and Technology (IET) (formerly the IEE). Electrical engineers work in a very wide range of industries and the skills required are likewise variable. These range from circuit theory to the management skills of a project manager. The tools and equipment that an individual engineer may need are similarly variable, ranging from a simple voltmeter to sophisticated design and manufacturing software.

Duties of Electrical Engineers

  The functions performed by electrical engineers include
  • basic research in physics, other sciences, and applied mathematics in order to extend knowledge applicable to the field of electronics;
  • applied research based on the findings of basic research and directed at discovering new applications and principles of operation;
  • development of new materials, devices, assemblies, and systems suitable for existing or proposed product lines;
  • design of devices, equipment, and systems for manufacture;
  • field-testing of equipment and systems;
  • establishment of quality control standards to be observed in manufacture;
  • supervision of manufacture and production testing;
  • postproduction assessment of performance, maintenance, and repair;
  • engineering management, or the direction of research, development, engineering, manufacture, and marketing and sales.
Consulting Engineers The rapid proliferation of new discoveries, products, and markets in the electrical industries has made it difficult for workers in the field to maintain the range of skills required to manage their activities. Consulting engineers, specializing in new fields, are employed to study and recommend courses of action. The educational background required for these functions tends to be highest in basic and applied research. In most major laboratories, a doctorate in science or engineering is required to fill leadership roles. Most positions in design, product development, and supervision of manufacturing and quality control require a master’s degree. In the high-technology industries typical of modern electronics, an engineering background at not less than the bachelor’s level is required to assess competitive factors in sales engineering to guide marketing strategy.

Branches of Electrical Engineering

  The largest of the specialized branches of electrical engineering, the branch concerned with the electronic computer, was introduced during World War II. The field of computer science and engineering has attracted members of several disciplines outside electronics, notably logicians, linguists, and applied mathematicians. Another very large field is that concerned with electric light and power and their applications. Specialties within the field include the design, manufacture, and use of turbines, generators, transmission lines, transformers, motors, lighting systems, and appliances. A third major field is that of communications, which comprises not only telephony but also guides communications and the transmission of voice and data by laser signals through optical-fiber networks. The communication of digital data among computers connected by wire, microwave, and satellite circuits is now a major enterprise that has built a strong bond between computer and communications specialists. The applications of electricity and electronics to other fields of science have expanded since World War II. Among the sciences represented are medicine, biology, oceanography, geoscience, nuclear science, laser physics, sonics and ultrasonics, and acoustics. Theoretical specialties within electronics include circuit theory, information theory, radio-wave propagation, and microwave theory. Another important specialty concerns improvements in materials and components used in electrical and electronics engineering, such as conductive, magnetic, and insulating materials and the semiconductors used in solid-state devices. One of the most active areas is the development of new electronic devices, particularly the integrated circuits used in computers and other digital systems. The development of electronic systems—equipment for consumers, such as radios, television sets, stereo equipment, video games, and home computers—occupies a large number of engineers. Another field is the application of computers and radio systems to automobiles, ships, and other vehicles. The field of aerospace electronic systems includes navigation aids for aircraft, automatic pilots, altimeters, and radar for traffic control, blind landing, and collision prevention. Many of these devices are also widely used in shipping.

Why Study Electrical Engineering

 

Easy to Get Job

Graduates of engineering schools to start Electrical Engineering careers fairly easily because most employers search for fresh minds with good training. They are glad to get young people they can mold to their own specific needs and turn them into experts. This is also the reason why electrical engineers are the most valued in the job market.

Possibility of Work Abroad

Being an electrical engineer means having a lot of job opportunities in countries all around the world. The laws of math and physics are universal, and your gained knowledge doesn’t limit you to only the country you studied in. There are a lot of international technology companies that need electrical engineers, and they are willing to employ people from other countries if they are good enough. Also, most of them operate at an international level, which offers you additional options for traveling while working. Besides, you are usually getting paid well for it!

Electric Power won’t be Your Only Focus

Being an electrical and electronics engineer doesn’t mean you will work your whole life plugging and unplugging electronics, or just designing electronic circuits. Electrical Engineering degrees have the immense advantage of covering tens of specializations, making the field very flexible and offering you a great chance of simply throwing a dart at a list and trying on areas like a nervous person tries clothes before a date: many, in a short period of time. 

You will Develop Great DIY Techniques

DIY or “Do It Yourself” is one of the more exciting reasons to get into Electrical Engineering. When you know how power generation, control panels, and electrical systems work, how to transmit energy, what usually malfunctions, and what are the basic rules of Electrical and Computer Engineering, you can make your own systems and devices, instead of searching for and buying them.  And it’s not just everyday fixes, like changing a light bulb or a faulty fuse: you will also be able to cope with more complex problems within your household and those of your friends and family. And that doesn’t only save you money, but also works great as a pick-up line… It will never be boring, as new gadgets come out all the time.  Electrical and electronic components are modified, invented, and reinvented every day, so you will never be bored! You won’t be using the same processor component for more than 10 years. New and exciting stuff is available all the time and you will have lots of fun testing and assembling it.
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Biomedical Engineering

What is Biomedical Engineering

  Biomedical engineering is the application of the principles and problem-solving techniques of engineering to biology and medicine. This is evident throughout healthcare, from diagnosis and analysis to treatment and recovery, and has entered the public conscience through the proliferation of implantable medical devices, such as pacemakers and artificial hips, to more futuristic technologies such as stem cell engineering and 3-D printing of biological organs. Biomedical engineering focuses on the advances that improve human health and health care at all levels.

About the Course

  The degree program aims to produce engineers who can contribute back to society through innovation, entrepreneurship, and leadership. Graduates will be equipped with a strong foundation suitable for a flexible range of careers across R&D, product design, and manufacturing in the Biomedical engineering industries or for further education. Biomedical engineers differ from other engineering disciplines that have an influence on human health in that biomedical engineers use and apply an intimate knowledge of modern biological principles in their engineering design process. Aspects of mechanical engineering, electrical engineering, chemical engineering, materials science, chemistry, mathematics, and computer science and engineering are all integrated with human biology in biomedical engineering to improve human health, whether it be an advanced prosthetic limb or a breakthrough in identifying proteins within cells.

Subdisciplines

There are many subdisciplines within biomedical engineering, including the design and development of active and passive medical devices, orthopedic implants, medical imaging, biomedical signal processing, tissue and stem cell engineering, and clinical engineering, just to name a few.

Why Study Biomedical Engineering

  Biomedical engineers work in a wide variety of settings and disciplines. There are opportunities in the industry for innovating, designing, and developing new technologies; in academia furthering research and pushing the frontiers of what is medically possible as well as testing, implementing, and developing new diagnostic tools and medical equipment; and in government for establishing safety standards for medical devices. Many biomedical engineers find employment in cutting-edge start-up companies or as entrepreneurs themselves.  Tissue and stem cell engineers are working towards the artificial recreation of human organs, aiding in transplants, and helping millions around the world live better lives. Experts in medical devices develop new implantable and external devices such as pacemakers, coronary stents, orthopedic implants, prosthetics, dental products, and ambulatory devices. Clinical engineers work to ensure that medical equipment is safe and reliable for use in clinical settings. Biomedical engineering is an extremely broad field with many opportunities for specialization. Economically speaking, medical diagnostics triple in market value each year. Revolutionary advances in medical imaging and medical diagnostics are changing the way medicine is practiced. New medical devices, arising in the research laboratories of biomedical engineers around the world, have completely altered the manner by which disease and trauma are dealt with by physicians, extending the quality and length of human life. Ultimately, the future of biomedical engineering is tied to both the issues and obstacles we discover and advances and achievements in fields like chemistry, materials science, and biology. Just as in most other fields, interdisciplinarity means that innovation originates from many directions at the same time.

Career Prospects

  In the last few years, biomedical engineering considered the best healthcare career out there. And the possibilities within biomedical engineering are nearly endless. New innovations in technology, materials, and knowledge mean that tomorrow’s breakthroughs can barely be conceived of today. After all, a generation ago, biomedical engineering, as a field, did not exist. Career paths in biomedical engineering tend to be driven by the interests of the individual: the huge breadth of the field allows biomedical engineers to develop specialties in an area that interests them, be it biomaterials, neuromodulation devices, orthopedic repair, or even stem cell engineering. Biomedical engineers often combine an aptitude for problem-solving and technical know-how with focused study in medicine, healthcare, and helping others. It is this hybridization that has led to so much innovation—and so much opportunity—in biomedical engineering.
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Industrial Engineering

What is Industrial Engineering

  Industrial Engineering attracts countless international students annually. It promises the best of Engineering and Business. Industrial Engineers design, develop, improve, and manage efficient systems. Industrial Engineering encompasses the analysis, development, improvement, and implementation of all integrated processes and their components, including materials, equipment, information, energy, people, money, and time. Industrial Engineers figure out how to do things better. Industrial Engineers eliminate waste of time, money, materials, energy, and other commodities; the strain on workers and the environment; and save companies money. More and more organizations are hiring industrial engineers and promoting them to management positions

About the Course 

  Industrial Engineering fuses engineering, business, and communications, drawing upon computer science, math, production management, process control, and psychology. Industrial engineers have the technical training and understanding of people to make improvements in efficiency and quality in any setting. The Bachelor of Science in Industrial Engineering prepares students to work in a limitless variety of industries, including technology, health care, communications, manufacturing, and government—you will be equipped to make an impact in the career path of your choice. Many are misled by the term “Industrial Engineer.” “Industrial” does not mean just manufacturing—it encompasses telecommunications, computing, service industries, and human relations as well. While it has long been known that industrial engineers have the technical training to make improvements in a manufacturing setting, now it is increasingly recognized that these same skills provide a systematic technique to evaluate and improve efficiency and quality in any setting.

Course Curriculum 

  Below you can see the list of typical courses you will study during the Industrial Engineering program:
  • Materials handling;
  • International production and operation management;
  • Logistics and Operations scheduling;
  • Production and Operations planning.

Why study Industrial Engineering

  There’s no single reason why the Industrial Engineering degree is the best career path you can take. Therefore, let’s check the main ones: There’s no such thing as a bad idea in Industrial Engineering – in your Bachelor’s studies, you’ll always be encouraged to come up with solutions and different angles of approach. Look around and you’ll only see industrial engineers – your cup, your laptop, your scarf: everything needs someone to plan their life cycle. Yup, that’s the Industrial Engineer. You’ll be part of a dynamic field – technology always evolves, and you will have to keep up with it all, always learning how to bring about innovation. Studying Industrial Engineering is flexible – you can pursue a more technical or a more management-oriented path, customizing your approach to Industrial Engineering.

Career Prospects

  You can trick the system by choosing your field of study based on the job market from the very beginning. As it stands, Industrial Engineering is one of the most sought-after specializations out there today. It’s not difficult to figure out why Industrial Engineering is so popular: with such a wide range of skills, industrial engineers can work in both technical and managerial positions. That means your job opportunities will double. Some prospective careers that await you are:
  • Service industries
  • Logistics providers
  • Manufacturing industries
  • Consulting and engineering services
  • Research and development firms
  • Wholesale trade
Today, more and more businesses hire Industrial Engineers in areas like sales and marketing, finance, information systems, and personnel. Other industries employing IE‘s are hospitals, airlines, banks, railroads, and social services.
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Aviation Engineering

What is Aviation Engineering

  Aviation engineering is a branch of engineering that deals with airspace development, airport design, aircraft navigation technologies, and aerodrome planning. It also involves the formulation of public policy, regulations, and aviation laws pertaining to airspace, airlines, airports, aerodromes, and the conduct of air services agreements through treaty. This branch of engineering is distinct from aerospace engineering which deals with the development of aircraft and spacecraft.

About the Course

  This is an ideal degree for anyone considering an engineering career in aviation. It will prepare you to work in aircraft maintenance, airworthiness, aviation management, logistics, systems integration, design, support, manufacturing, and air transport economics. Studies include aerodynamics, propulsion, structures and materials science, and the performance of aircraft. Through practical work in laboratories and workshops, you’ll apply the engineering principles you learn. This degree will also develop career skills such as effective communication, presentation, team-working, planning, and project management.

Course Curriculum 

  In year 1, you will acquire the fundamental engineering knowledge and skills to build a solid foundation for students to undertake a deeper study in year 2. You will have the opportunity to carry out hands-on practical work in laboratories and workshops throughout the program. Most modules are designed to develop key employability skills such as communication, presentation, team-working, planning, and project management. In year 2, you will study the engineering principles underpinning aircraft technologies such as aerodynamics, propulsion, structures, and materials science, and the performance of aircraft. You will study aircraft maintenance operations, aircraft systems, airworthiness, and air transport economics. In years 3 and 4 you will study aircraft maintenance operations, aircraft systems, airworthiness, and air transport economics. Please note that our partner universities offer a lot of practice for students.

Career Prospects

  Aviation is a global industry that connects the world. The activity is very diverse, with a multitude of commercial, industrial, and military applications. Aviation engineering will give you practical skills directly relevant to this specific field of industry and employment. As the aviation industry is pretty insular, a degree like this will also get you the contacts and connections you need to launch your career. Aviation engineering is a good choice for earning an impressive salary as graduates are in high demand. Companies are eager to hire graduates with well-honed, vocational skills.  Eventually, aerospace engineers may advance to become technical specialists or supervise a team of engineers and technicians. Some may even become engineering managers or move into executive positions, such as program managers.
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Rocket Sciences

What is Rocket Science

  The broad term rocket science usually denotes the complex set of principles that govern the engineering of a rocket, a device that fires internal fuel and uses the fuel's kinetic energy to propel itself, at least to me. Rocket science, therefore, covers a vast subset of fields. It’s not for nothing that aerospace engineers are often considered Jack of all trades. The first field is dynamics. Locally, moments of inertia, masses, torques, etc., are all important. This alone could cover half a team. There’s the astrodynamics section as well, covering trajectory and mission planning. Governing equations: Newtonian. Then there’s the whole set of the chemistry of electromagnetically that cover energy storage. Chemical balances, stoichiometry, etc are this part of rocket science. Following that is a set of thermodynamics or plasma dynamics, covering either chemical or electric propulsion. This is usually a job for another whole team. Next, the effects of the atmosphere on the rocket. Aerodynamics, space environment, and two other whole fields of physics and astronomy. After that, structures. A set of physics and chemistry, some solid-state physics. Another team. Systems, feedback… all of these add up to a monumental problem. It is indeed rocket science.

Rocket Scientists 

are aerospace engineers who specialize in the design and manufacture of spacecraft. They work with the principles of science and engineering to create vehicles that fly within or above the Earth’s atmosphere. The job of a rocket scientist requires proficiency in physics, chemistry, aerodynamics, propulsion, communications, and mathematics. A bachelor’s degree in aerospace engineering or a related field is the minimum requirement for entry-level positions, while many candidates choose to pursue graduate degrees to enhance their career prospects.

Rocket Scientists' Duties

  Rocket scientists and aerospace engineers generally work on the design and testing of rocket-propelled vehicles, such as orbiting spacecraft or missiles. They could specialize in a particular area of aerospace engineering, such as space exploration vehicles or defense systems. They might also choose to focus on a particular component of spacecraft, such as acoustics, aerodynamics, propulsion, or guidance systems. Duties can include designing aerospace vehicles or systems, overseeing the manufacture and fabrication of projects, devising testing methods, or developing quality criteria for spacecraft systems, such as communications or fuel systems. Within their design processes, rocket scientists need to determine the most efficient and effective placement for instrumentation and controls to assure ease of use for manned vehicles or connectivity for unmanned spacecraft. Other tasks can include assessing the results of quality control inspections to ensure the aerospace system meets necessary specifications and developing reports or handbooks for operators who use the equipment or vehicles. How difficult is rocket science? Rockets are intuitively simple but frighteningly difficult to actually create at the performance extremes that we need to put them into space

Career Prospects

  After completing a degree, you can fulfill your dream of becoming a rocket scientist by directly applying for positions with organizations of your choice. You would have a higher chance of getting your dream job if you have a history of internships with the organization, although that’s not an essential criterion. Having research or training experience in rocket science can be extremely rewarding as you will get real-world exposure, discover network opportunities and augment your resume altogether. In a challenging field like Rocket Science, higher studies encompass a quintessential step for aspirants to understand the rigorous design and development of spacecraft. It is a great way of improving and polishing your skills and knowledge to become one of the best experts in your field.
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Aerospace Engineering

What is Aerospace Engineering

  Aerospace engineering is the primary field of engineering concerned with the development of aircraft and spacecraft. It has two major and overlapping branches: aeronautical engineering and astronautical engineering. Avionics engineering is similar but deals with the electronics side of aerospace engineering. “Aeronautical engineering” was the original term for the field. As flight technology advanced to include vehicles operating in outer space, the broader term “aerospace engineering” emerged. Aerospace engineering, particularly the astronautics branch, is often colloquially referred to as “rocket science”. Flight vehicles are subjected to demanding conditions such as those caused by changes in atmospheric pressure and temperature, with structural loads applied upon vehicle components. Consequently, they are usually the products of various technological and engineering disciplines including aerodynamics, propulsion, avionics, materials science, structural analysis, and manufacturing. The interaction between these technologies is known as aerospace engineering. Because of the complexity and number of disciplines involved, aerospace engineering is carried out by teams of engineers, each having its own specialized area of expertise.

Aeronautical Engineering and Aerospace Engineering Similarities

Aeronautical engineering and aerospace engineering are similar disciplines that are often confused, yet there are significant differences between the two disciplines. Here are some of the similarities.
  • Both use similar technology;
  • Both disciplines require similar knowledge and skill sets;
  • Both careers focus on the flight;
  • Both disciplines require the candidate to earn a typical degree in engineering before pursuing an advanced degree in aeronautical engineering or aerospace engineering;
  • Both programs require study in aerodynamics, flight stability, aircraft control, and basic engineering;
  • Salaries are similar.

Aeronautical Engineering and Aerospace Engineering Difference

There is one major difference between aeronautical and aerospace engineering. Aeronautical engineering focuses mostly on flight and flight activities with an atmosphere while aerospace engineering may also include activities within an atmosphere, but it also focuses on space applications where there is no atmosphere.

About the course

  The program in Aerospace Engineering fosters skilled engineers for careers in the international aerospace sector and related fields. The program offers specialization in Aeronautics, Space, Lightweight Structures, and Systems Engineering. Graduates have a solid theoretical foundation in aerospace modeling, analysis, and design, as well as teamwork skills and a general ability to approach and solve complex engineering tasks. The course is highly project-oriented and designed to prepare students for the requirements of the global space industry. Students have the chance to be involved in challenging projects, working within intercultural teams. Especially, they benefit from the worldwide leading expertise and network.

Aerospace Engineer’s Duties 

  This engineering field deals with the creation, design, and maintenance of travel machines, including airplanes missiles, helicopters, satellites, and spacecraft. They not only create the machines but also use their knowledge of technology and aviation to create the most energy-efficient machines on the market. They utilize sophisticated technologies for defense systems, aviation, and space exploration. They’re also the professionals responsible for ensuring the machines meet environmental and safety regulations. Aeronautical engineers inspect the parts and make recommendations for any necessary changes. Aeronautical engineering is about improving flight safety and fuel efficiency. They usually work in multi-disciplinary engineering teams where responsibilities vary.

Job responsibilities of an Aeronautical Engineer

  • Direct, coordinate, and design the manufacturing and testing of aerospace products
  • Determine the feasibility of projects from a technical and a financial standpoint
  • Access the safety of projects and their ability to meet the defined goals
  • Evaluate designs, and ensuring that they conform to engineering best practices, customer requirements, and environmental standards
  • Develop a mechanism for accepting design techniques, frame quality standards, form project management rules
  • Inspect and repair malfunctioning and damaged products
Being an aeronautical engineer involves a lot of challenges and rewards. In this profession, working will always be a new learning experience. Prepare yourself with proper training and education. 

Why study Aerospace Engineering 

  There are a lot of factors you should consider when it comes to choosing a career. But above all, you should choose where your passion lies. If your heart is into working with great people, creating, and traveling, this might just be the perfect career for you. The best reasons to become an aeronautical engineer are
  • A chance to travel - pilots aren’t the only ones who can travel for free for their work. You might end up in another part of the world, designing a new aircraft. The possibilities where you might work are endless; 
  • Earn big getting paid while doing what you love can be fulfilling. Aeronautical engineers are highly paid. The salary for an entry-level job is outstanding;
  • Work with great people - this can be both a benefit and challenge. Aeronautical engineering needs teamwork. You’ll have the chance to work with inspiring people inside and outside the field;
  • You’ll never be bored - aeronautical engineering also needs creativity in solving problems. You’ll be exposed to different kinds of things, and new sets of problems needing fresh ideas. The learning never stops.
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Design

What is Design

  Design is a discipline of study and practice focused on the interaction between a person — a ‘user’— and the man-made environment, taking into account aesthetic, functional, contextual, cultural, and societal considerations. As a formalized discipline, design is a modern construct. Concretely, most people’s experience of design stems from their daily interaction with physical objects, built spaces, and digital environments. We interact with what is around us, and each other, through designed constructs. Clothing, devices, transportation, user interfaces, the landscape, the city, and even the chair you are sitting in, were all designed by a designer. 

About the Course

  Design degrees focus on fundamental aspects of design activity, from comprehension and methodology to values and philosophy. Design is often the first step before executing a certain product that has to follow certain aesthetic features and also respond to certain customers’ needs. Students enrolled in a Bachelor's or Master's in Design will learn, to define the particularities of a certain object or concept, shape, size, color, environment, costs, functionalities, utility, constraints, etc.

Why Study Design

  The use and attributes of design are becoming more and more diversified and are nowadays present in many different business sectors, from architecture and civil engineering to organizational and human behavior. A designer may work in different fields of activity such as fashion design, interior design, graphic design, industrial design, web design, and more. Students will be equipped with illustration skills as they have to develop original ideas and concepts, as well as technical capabilities. They will also develop research and planning skills – in order to set a strategy for approaching each project, creativity, and attention to detail. Although most graduates of design work in media, advertising, or software technology, other popular career options include: exhibition designer, interior designer, landscape architect, multimedia specialist, fashion designer, and more.

Career Prospect

  Design is a great career for people who are creative thinkers and enjoy art, technology, and communication. There are design needs across every industry, so designers have many opportunities to take on a range of new and exciting projects. It can also be a very fulfilling career, as designers can see the real-world impact of their work. Design education helps to meet the world’s demand for innovation. In every aspect of government, industry, business, and non-profit work, there is an ever-increasing demand for creative thinking and ingenuity. Education in Design is like exercising your creative muscles and developing your unique potential. Design students learn and practice both conceptual and critical thinking and develop their natural creativity – capacities that are highly valued in the 21st Century world.
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Web-Design

What is Web Design

  As the name indicates, the field of web design focuses on the work involved in designing websites. Individuals who aspire to be web designers need to be both artistically talented as well as efficient in the latest computer technology because a website is built with the combination of the two skills. Websites need to be visually attractive and user-friendly. If a website is visually well-designed but too difficult for users to navigate it will not be successful. Many web designers are self-employed thus they work for various companies on a contractual basis. There are some web designers, however, who work full-time for specific companies, non-profits, institutions, and government agencies.

About the Course

  The Bachelor in Web Design degree prepares students to work as entry-level designers in a variety of exciting industries that use screen-based content, including advertising, marketing, branding, social media, and corporate communications. If you’re interested in earning a web design degree, this program provides a strong foundation in all forms of digital design with a strong focus on web design. Behind every screen today is a digital designer deciding what content goes where what moves, and how to marry both form and function in order to create an enjoyable brand journey. Students learn the design process, including concept development, visualization techniques, stylistic trends, composition, typography, color theory, user experience, interface concepts, and responsive design. Students will also learn the fundamentals of HTML and CSS, content management systems, and analytics, and create dynamic visual content in every studio course. This digital design degree program aims to create adept designers with a set of skills that appeal across all sectors of the economy and will offer growth opportunities well into the future. Students will take courses that support foundational creative skills, skill enhancement, motion graphics, and portfolio development. Throughout the portfolio process, students are encouraged to use their creativity to highlight their distinct skillset. In courses such as Designing for New Technologies, User Experience, Application Design, Content Management Systems Designing with Motion Graphics, students will acquire these core competencies:
  • The design and application of branded content in screen-based applications
  • Theories of user experience and interaction (UI/UX) as applied to the design of mobile and web products
  • The design and creation of motion graphics across multiple mediums to meet the needs of client businesses
During their senior year, students create their own professional portfolios to showcase their skills and talents to prospective employers. Throughout this degree, students develop their design skills, communication skills, problem-solving abilities, and critical thinking capabilities. They explore the fundamental principles of ethical leadership as well.

Why Study Web Design

  We live in an information-driven society. A digital design degree equips students to use their design skills to create real-world design solutions. Throughout the program, students will learn principles of design, color, composition, and typography while using industry-standard software. In addition, students are provided opportunities to specialize in different areas of interest. Digital design students continually refine their craft by developing prototypes and responding to actionable feedback. Portfolio classes and portfolio development will support students in their design efforts and provide them with material to showcase to future employers. Digital web design students will graduate equipped to enter the workforce and apply their skills in a wide range of industries.

Career Prospects

  Graduates who possess the design skills necessary to create websites, apps, kiosks, and interactive displays may pursue work across virtually any industry, including private companies, the public sector, and nonprofit organizations. Some of the jobs include the following:
  • Graphic designer
  • Art director
  • Special effects artist and animator
  • Artist
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Law

About the Course

  Studying law offers the opportunity to develop a range of skills and explore many aspects of human life. It gives you the chance to sharpen your mind, strengthen your understanding and deepen your experience across the full range of humanities and social sciences. You acquire both breadth of understanding and depth in the areas that interest you most.  Law should therefore appeal to those who want to develop both abstract thinking and practical problem-solving. It’s easy to see why you don’t have to become a lawyer just because you’ve done a law degree; many choose other paths. A law degree can give you the skills to be a successful lawyer but also a successful producer, politician, manager, journalist, diplomat, or police officer; a law degree equips you for almost any profession that requires intellectual strength combined with a practical approach to the world. 

Why Study Law

  • First, Ignorantia juris non excusat is Latin for “ignorance of the law is no excuse”. It is a legal principle holding that a person who is unaware of a law may not escape liability for violating that law merely because one was unaware of its content. This makes it necessary for every person in India and not just its citizens to try to know and understand the law of the land. Lawyers are professionals who happen to know more and specialize in the field of law;
  • Second, there is an old saying which goes like this, if you only have three friends, make sure that one of them is a Lawyer, the other a Doctor, and the last a Banker. Any normal person will require the services of these three professionals at some point in time even though we hope against it, and it is better to have someone who gives preference to your well-being rather than look at you as an ATM. Rather, why not be a lawyer yourself if you aren’t the other two;
  • Third, a degree in law can give one the skills to be a successful lawyer but also a successful producer, politician, manager, journalist, diplomat, or police officer; a law degree equips you for almost any profession that requires intellectual strength combined with a practical approach to the world;
  • Fourth, Law is a professional course and helps you develop certain skills. Critical analysis, drafting of documents, research, argument, presentation, and sharing of ideas;
  • Fifth, social engineering is based on the theory that laws are created to shape society and regulate people’s behavior. It is an attempt to control human conduct through rules. Therefore, studying law helps one understand how society functions.

Career Prospects 

  A career in law can be intellectually challenging, personally fulfilling, and financially rewarding. Law is a very wide field, it touches every part of our lives, and it is easy to find such as driving a car, getting into a fight, buying something from a shop, being employed, renting a house, etc. Law is a highly respected qualification and it promises great opportunities for your career. Law will always challenge you because of the intellectual and need of hard work that you need to put in. These challenges will help you to grow as a person and even make you better in your profession. Law is certainly a rewarding profession. For some, law study is to uphold justice, a noble call that is most commendable. Law is not only for lawyers as it impacts all aspects of society. Law graduates can choose from a number of professions.  Below are five reasons to choose a career in the legal profession.

Diverse Legal Career Options

The complexities of our legal system have created hundreds of legal career options that serve a variety of core and non-core legal functions. From lawyers, judges, and mediators to paralegals, secretaries, and consultants, the legal professional’s role is expanding and evolving to keep pace with the ever-changing legal system.

Growth and Opportunity

In the last several years, the legal profession has experienced staggering growth. A steady rise in profits and revenues expanded headcounts, and significant salary increases have provided plenty of job opportunities in a broad range of legal positions.

Client Service

At the heart of the legal professional’s role is client service. Whether you are a lawyer representing a multinational corporate client, a paralegal assisting abused women to obtain restraining orders, or a law clerk researching a tax issue for a new business, the fundamental purpose of the legal professional is the help others resolve their legal problems.

Intellectual Challenges

Navigating an evolving legal system, advances in technology, vast bodies of case law, and the demands of the legal profession creates a stimulating intellectual environment for the legal professional. Lawyers and non-lawyers alike must grapple with conceptually challenging issues, reason with logic and clarity, analyze the case and statutory law, research complex legal issues, and have expert oral and written communications.

Prestige

In a culture that views high pay, impressive schooling, and societal power as hallmarks of success, the legal profession has long been regarded as a noble and elite profession. This image is further boosted by the portrayal of legal careers in the media as exciting, glamorous, fast-paced, and desired. As a result, the legal profession has held its allure, and careers in the law remain one of the most sought-after professions in today’s job market.
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Journalism

What is Journalism

  Journalism is the collection, preparation, and distribution of news and related commentary and feature materials through such print and electronic media as newspapers, magazines, books, blogs, webcasts, podcasts, social networking, and social media sites, and e-mail as well as through radio, motion pictures, and television. The word journalism was originally applied to the reportage of current events in printed form, specifically newspapers, but with the advent of radio, television, and the Internet in the 20th century the use of the term broadened to include all printed and electronic communication dealing with current affairs.

About the Course

  Majoring in journalism is a fast-paced endeavor, where you’ll be quickly learning the ins and outs of how to write a variety of different types of stories on many different topics. You’ll often be sent out into the field to work on your own, and you’ll have to come back with polished articles on quick, hard deadlines. If you love learning new things, journalism may be the perfect field for you. As a journalist, part of your job will be to inquire about new information and ask “why?” questions to find out more. In your professional writing degree program, you will explore different areas that will enrich critical thinking and analysis. Overall, this will prepare you to successfully gather information and communicate through your writing. As a journalist, you will be able to apply the concepts you learn hands-on. Rather than spending your days doing tedious tasks, you will have the opportunity to work with different people in a variety of settings. In addition, being a journalist can provide you with the chance to travel to new places to cover stories.

Skills Required

  Here are some of the skills that journalists need to succeed at their job:
  • Communication - the primary role of a journalist is to communicate news, either written or verbally. No matter how proficient you're in other skills, you cannot be a journalist without good communication skills. You're required to interview sources, report news, and write articles or scripts. Be sure to work on your communication skills by being friendly, empathetic, and confident as you present the news or information. 
  • Attention to detail - journalists are required to report news that's genuine and true. There are many sources of information, of which some are not credible. As a journalist, you need to pay attention to detail to know if the news you're about to present to the public is accurate. Be sure to do extensive research on a topic to give all facts available. 
  • Persistence - as a journalist, it's not always that your sources will be willing to talk or give you the information you need. It's crucial that you remain determined and keep persisting in the story. Successful journalists are those who report unique and exclusive news. You cannot get that kind of news by giving up when things get difficult.
  • Research skills - are very important in the career of a journalist. You need to capture all details and use different sources to get information. In addition, you must have the ability to know how to evaluate all your data and research before presenting it to the public. So, be sure to work on your research skills and find ways to analyze and represent data.
  • Digital literacy - currently, digital literacy is a must-have skill for most careers. As a journalist, you must know how to use things like websites, apps, social media, laptops, and tablets, since they are the new broadcast mediums. To have a rewarding career, you must be willing to adapt and accept change, such as the use of digital platforms. This is because using digital media to broadcast news is one of the best ways to reach a large group of people.
  • Logical reasoning and objectivity - when reporting news, you cannot afford to be biased. Otherwise, you'll only report information that's appealing to you or a particular group of people. You have to be objective and reason logically before presenting any news. Keep in mind that different kinds of people have access to this news. Be sure to present and write content that's respectful and unbiased.

Why Study Journalism

  Do you consider yourself to be a people person? With a journalism career, you will meet many new people that you may not have met otherwise. You will get to know people from all walks of life and have the opportunity to hear their stories. This can allow you to gain a new perspective that will benefit you both in your career and life. In today’s world, networking is a valuable skill to have. As a journalist, you will work with others to accomplish tasks, which will teach you how to work as a team and provide you with opportunities to build your professional network. The connections you make can benefit you in your career and lead to opportunities further down the road! There will always be news to report, and there will always be the need for effective communicators to report it. While advancements in technology may change the way a career in journalism looks, there continues to be a need for those who are skilled in different kinds of writing. By becoming a journalist, you can take part in the excitement as the field continues to grow and change!

Career Prospects 

  Often people say that journalism is a dying field, but that can’t be further from the truth. While traditional print journalism might not be in the same place it was several decades ago, it is still relevant. Additionally, digital journalism has become more and more prevalent, and there are many different jobs out there for people with a journalism degree. There are also many people with journalism degrees who work on the opposite side of the industry in public relations roles, pitching ideas and stories to journalists on behalf of clients. Some potential career options include becoming a journalist, blogger, social media manager, broadcast journalist, communications manager, publicist, marketing manager, advertising copywriter, multimedia reporter, photographer, and editor. Journalism is a field that will engulf you in its claws and will not let you go. There are various roles that one can take up in journalism, but for that one needs to know their forte. In the end, I would only like to say, if you are a passionate person who wants to make the most of your youth, journalism is one career that will never let you down.
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Social Sciences

What is Social Science

  Social science is the branch of science devoted to the study of societies and the relationships among individuals within those societies. The term was formerly used to refer to the field of sociology, the original “science of society”, established in the century. In addition to sociology, it now encompasses a wide array of academic disciplines, including anthropology, archaeology, economics, human geography, linguistics, management science, media studies, political science, psychology, and history. Positivist social scientists use methods resembling those of the natural sciences as tools for understanding society, and so define science in its stricter modern sense. Interpretivist social scientists, by contrast, may use social critique or symbolic interpretation rather than constructing empirically falsifiable theories, and thus treat science in its broader sense. In modern academic practice, researchers are often eclectic, using multiple methodologies (for instance, by combining both quantitative and qualitative research). The term “social research” has also acquired a degree of autonomy as practitioners from various disciplines share the same aims and methods. The social science disciplines are branches of knowledge taught and researched at the college or university level. Social science disciplines are defined and recognized by the academic journals in which research is published, and the learned social science societies and academic departments or faculties to which their practitioners belong. Social science fields of study usually have several sub-disciplines or branches, and the distinguishing lines between these are often both arbitrary and ambiguous.

About the Course

  Do you enjoy a variety of fields of study? Are you interested in receiving a classic liberal arts degree, or do you not want to focus on only one area during your time in college? Or would you simply like to become a well-rounded person? Then the Social Science major is for you. In the Social Science program, you are offered the chance to explore the human condition and how we relate to one another and our world in a variety of contexts. You will spend time studying Communication, Criminal Justice, Economics, Geography, History, Political Science, Psychology, and Sociology. And if one of them becomes a favorite, then that area can become the specialty of your Social Science major. Degrees in social work, politics, criminology, sociology, anthropology, statistics, finance, economics, law, and psychology. The social sciences cover a lot of ground. The appeal is broad because the many subjects that come under the social sciences umbrella provide fascinating insights into everyday life in our communities, families, and workplaces. All social science courses help students develop a wide range of transferable skills and open up many career options.

Branches

  Social science includes such branches as

Anthropology

Anthropology is the holistic “science of man”, a science of the totality of human existence. The discipline deals with the integration of different aspects of the social sciences, humanities, and human biology. In the twentieth century, academic disciplines have often been institutionally divided into three broad domains. The natural sciences seek to derive general laws through reproducible and verifiable experiments. The humanities generally study local traditions, through their history, literature, music, and arts, with an emphasis on understanding particular individuals, events, or eras. The social sciences have generally attempted to develop scientific methods to understand social phenomena in a generalizable way, though usually with methods distinct from those of the natural sciences.

Communication Studies

Communication studies deal with processes of human communication, commonly defined as the sharing of symbols to create meaning. The discipline encompasses a range of topics, from face-to-face conversation to mass media outlets such as television broadcasting. Communication studies also examine how messages are interpreted through the political, cultural, economic, and social dimensions of their contexts. Communication is institutionalized under many different names at different universities, including “communication”, “communication studies”, “speech communication”, “rhetorical studies”, “communication science”, “media studies”, “communication arts”, “mass communication”, “media ecology”, and “communication and media science”.

Economics

Economics is a social science that seeks to analyze and describe the production, distribution, and consumption of wealth. An economist is a person using economic concepts and data in the course of employment, or someone who has earned a degree in the subject. The classic brief definition of economics, set out by Lionel Robbins in 1932, is “the science which studies human behavior as a relationship between ends and scarce means which have alternative uses”. Without scarcity and alternative uses, there is no economic problem. Briefer yet is “the study of how people seek to satisfy needs and wants” and “the study of the financial aspects of human behavior”.

Education

encompasses teaching and learning specific skills, and also something less tangible but more profound: the imparting of knowledge, positive judgment, and well-developed wisdom. Education has as one of its fundamental rights the imparting of culture from generation to generation (see socialization). It is an application of pedagogy, a body of theoretical and applied research relating to teaching and learning, and draws on many disciplines such as psychology, philosophy, computer science, linguistics, neuroscience, sociology, and anthropology.

Geography

As a discipline can be split broadly into two main subfields: human geography and physical geography. The former focuses largely on the built environment and how space is created, viewed, and managed by humans as well as the influence humans have on the space they occupy. This may involve cultural geography, transportation, health, military operations, and cities. The latter examines the natural environment and how the climate, vegetation and life, soil, oceans, water, and landforms are produced and interact. Physical geography examines phenomena related to the measurement of the earth. As a result of the two subfields using different approaches a third field has emerged, which is environmental geography. Environmental geography combines physical and human geography and looks at the interactions between the environment and humans. Other branches of geography include social geography, regional geography, and geomatics.

History

History is the continuous, systematic narrative and research into past human events as interpreted through historiographical paradigms or theories.

Law

The social science of law, jurisprudence, in common parlance, means a rule that (unlike a rule of ethics) is capable of enforcement through institutions. However, many laws are based on norms accepted by a community and thus have an ethical foundation. The study of law crosses the boundaries between the social sciences and humanities, depending on one’s view of research into its objectives and effects. 

Linguistics

Investigates the cognitive and social aspects of human language. The field is divided into areas that focus on aspects of the linguistic signal, such as syntax (the study of the rules that govern the structure of sentences), semantics (the study of meaning), morphology (the study of the structure of words), phonetics (the study of speech sounds) and phonology (the study of the abstract sound system of a particular language); however, work in areas like evolutionary linguistics (the study of the origins and evolution of language) and psycholinguistics (the study of psychological factors in human language) cut across these divisions.

Political Science

Political science is an academic and research discipline that deals with the theory and practice of politics and the description and analysis of political systems and political behavior. Fields and subfields of political science include political economy, political theory and philosophy, civics, and comparative politics, theory of direct democracy, apolitical governance, participatory direct democracy, national systems, cross-national political analysis, political development, international relations, foreign policy, international law, politics, public administration, administrative behavior, public law, judicial behavior, and public policy. Political science also studies power in international relations and the theory of great powers and superpowers.

Psychology

Psychology is an academic and applied field involving the study of behavior and mental processes. Psychology also refers to the application of such knowledge to various spheres of human activity, including problems in individuals’ daily lives and the treatment of mental illness.

Sociology

Sociology is the systematic study of society, individuals’ relationship to their societies, the consequences of differences, and other aspects of human social action. Social Science subjects are wonderfully varied, offering a wide range of career progression routes following graduation. The scope is broad, but these subjects are united by one thing – a focus on understanding the workings of human society. Here are some of the reasons why so many students from around the world are attracted to social science degrees.

Career Prospects

  The successful completion of a degree in any social sciences subject demonstrates research skills, analytical ability, a flexible and adaptable approach to learning, critical evaluation, the ability to work to deadlines, creativity, logical thinking, team-working, self-organization, and communication skills – all skills that will serve graduates no matter where they want to take their careers. 

Jobs that make a difference

Graduate with a social science degree and you’ll be equipped with the skills you need to help to shape the future. Social sciences subjects naturally lead to progression into the kinds of careers that make a very real difference to society. Environmental planning, health, education, politics, law, and international relations – these are just a handful of the many social science areas that help you to improve the lives of children and adults in societies around the world. Whatever sphere of social science you specialize in, the world needs your expertise.

Curiosity

Human beings are fascinated by other human beings. What makes us tick? What makes a successful society? Why do so many of us watch Big Brother, read newspaper gossip columns, and check Twitter feeds? Just one of the reasons why social science degrees are so popular is that we’re keen to study ourselves. As humans, we are, innately, problem solvers. Looking inward, be it at ourselves through psychology, or at our society as a whole, through sociology, for example, we like to question, analyze, and look for answers. Social sciences subjects allow us to do just that.
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Tourism

What is Tourism Industry

  The tourism industry, also known as the travel industry, is linked to the idea of people traveling to other locations, either domestically or internationally, for leisure, social, or business purposes. It is closely connected to the hotel industry, the hospitality industry, and the transport industry, and much of it is based around keeping tourists happy, occupied, and equipped with the things they need during their time away from home. Tourism and leisure include all the economic and social activities associated with traveling experiences, recreation, and the enjoyment of free time. Professionals in the field have the responsibility to maximize their clients’ leisure experience, either through direct contact or by efficiently managing the logistics and personnel involved in the leisure resorts or activities. They work in tourism and the travel industry, in organizing various events or in sports and health centers.

About the Course

  Tourism and leisure professionals have a good understanding of sales principles, excellent communication skills, and usually speak more than one foreign language. Most are also trained in events, hospitality, sports management, and even in business administration. Combining the art of relaxation with the competencies needed to manage the tourist industry, tourism is a popular applied science profession. Typically, academic degrees in tourism, hospitality, and leisure offer in-depth management understanding, implementation strategies, and even different languages. Examples of study programs include international tourism management and consultancy, attractions and theme parks management, and leisure and event planning.

Duties of Tourism Manager 

  A tourism manager typically has a wide range of responsibilities, which can include:
  • Selecting and hiring staff members based on their qualifications and experience levels;
  • Maintaining knowledge about current trends in industry practices, laws, regulations, and technology in order to ensure compliance with standards;
  • Establishing relationships with travel suppliers such as airlines, cruise lines, hotels, car rental agencies, etc;
  • Managing daily operations of a hotel, motel, or other hospitality facilities, including hiring and training staff, developing budgets, and overseeing marketing efforts;
  • Managing the marketing and promotion of tourism services offered by an organization;
  • Reviewing incoming reservations to ensure that they meet company standards and requirements;
  • Developing strategies to increase tourism to the area through the promotion of attractions, accommodations, events, or other offerings;
  • Planning and preparing budgets for travel and tourism-related businesses such as hotels, resorts, airlines, cruise lines, or amusement parks;
  • Identifying potential problems within an organization and developing solutions to improve efficiency and customer satisfaction.

Skills Required

  Here are essential soft skills that a future tourism manager should master
  • Customer service skills - it is essential that employees and managers succeed in satisfying and even delighting customers. Excellent customer service skills is all about understanding the customer’s needs and being able to deliver a positive customer service experience.
  • Communication skills - exceptional communication skills are highly valued in most industries and the higher up one gets in the hierarchy, the more important they become. In the hospitality and tourism business, each day can involve contact with people of a variety of backgrounds, ages, nationalities, and temperaments. Thus, it is important to be able to communicate in a way that represents the business while at the same time speaking to customers in a way that they can understand and relate to.  
  • Flexibility skills - compared to other professions, hospitality, and tourism jobs often demand that employees work odd hours like nights and weekends. It is also necessary to be able to switch rapidly from one task to another as the situation may arise. Thus, flexibility is an essential attribute to succeed in the hospitality and tourism sector.
  • Organizational skills - organizational skills are at a premium in the hospitality and tourism trade. Given the need to multi-task and respond to spur-of-the-moment requests, it is necessary to maintain an organizational structure so as to be able to accomplish daily tasks in an efficient manner. One piece of advice: plan each day ahead keeping a checklist of things that need to be done. This will also help you develop strong time management skills. 
  • Cultural awareness - hospitality and tourism enterprises are more likely than most to deal with customers of a variety of nationalities and cultural backgrounds. The ability to be culturally aware and get past one’s own cultural norms is crucial to building a successful career in this sector.

Career Prospects

  Selecting a career in travel and tourism allows you to visit different places around the world, have memorable experiences, and meet new people on a daily basis. As a professional in the tourism industry, you cater to the needs of tourists and travelers The travel and tourism industry is a rapidly growing industry that requires talented professionals who are passionate about travel. Some of the most popular careers in tourism and leisure include job titles such as travel agent, fitness instructor, hotel and resort staff, or tour guide; opportunities stretch as far as restaurant management or transportation professional.
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Linguistics

What is Linguistics 

  Linguistics is the scientific study of language. It involves analyzing the many aspects that make up human language by looking at its form, structure, and context. Linguistics also looks at the interplay between sound and meaning, and how language varies between people and situations. Linguistics is concerned with the nature of language and communication. It deals both with the study of particular languages, and the search for general properties common to all languages or large groups of languages. It includes the following subareas:
  • phonetics (the study of the production, acoustics, and hearing of speech sounds);
  • phonology (the patterning of sounds);
  • morphology (the structure of words);
  • syntax (the structure of sentences);
  • semantics (meaning);
  • pragmatics (language in context).
It also includes explorations into the nature of language variation (i. e., dialects), language change over time, how language is processed and stored in the brain, and how it is acquired by young children.

Why Study Linguistics

  Linguistics is the scientific study of language. At the heart of linguistics is an understanding of 
  • The unconscious knowledge that humans have about language;
  • How humans acquire language;
  • The general and specific structures of language;
  • How languages vary;
  • How language influences the way in which humans interact with each other and think about the world;
  • Linguists investigate how people acquire knowledge about language, how this knowledge interacts with other thought processes, how it varies between speakers and geographic regions, and how to model this knowledge computationally;
  • They study how to represent the structure of various aspects of language (such as sounds or meaning), how to theoretically explain different linguistic patterns, and how different components of language interact with each other;
  • Many linguists employ statistical analysis, mathematics, and logical formalism to account for the patterns they observe.

About the Course

  Linguistics degrees cover a multitude of topics relating to the analysis of language and the way it is structured. They can also cover the way that language changes over time, how it varies between different groups of people and situations, and how people learn or acquire language.

Course Curriculum

The first year of your course will focus on an introduction to linguistics, including grammar, meaning (semantics), syntax (sentence formation), sounds (phonology), and words (morphology). The course content for the second and third years of study will vary widely between universities but can cover anything from typology, experimental phonetics, language acquisition, child bilingualism, modern foreign languages, the study of regional speech, and the history of language and neurolinguistics, among many others. Linguistics courses may also incorporate aspects of psychology, sociology, anthropology, communications studies, and science.

Career Prospects

  Linguistics is a growing and exciting field, with an increasingly important impact on other fields as diverse as psychology, philosophy, education, language teaching, sociology, anthropology, computer, science, and artificial intelligence. The skills acquired during a linguistics degree can be adapted to most industries. Direct career paths that can be followed are lexicographer, speech and language therapist, languages teacher, copy editor, proofreader, or a role in communications. Other career paths may include but are not limited to, civil service, marketing, journalism, law, and IT. Further study can also be undertaken to help prepare for more specialized roles or to enhance linguistics knowledge.  The variety is one of the things that makes linguistics fascinating: one day you might be poring over a medieval text for evidence of how the grammar of a language has changed, and the next, learning about how the larynx creates sound energy for speech, or how we can record brain responses in a categorization task. A degree in Linguistics can open the door to many careers owing to the emphasis on critical thought, analysis, and communication skills. Some jobs that more specifically use linguistics skills are the following:
  • Work in tech;
  • Work in education;
  • Teach at the university level;
  • Work as a translator or interpreter;
  • Teach English as a Second Language (ESL);
  • Teach a language other than English;
  • Work on language documentation or conduct fieldwork;
  • Work in the publishing industry (e.g. as an editor, technical writer or journalist);
  • Work for a testing agency;
  • Work with dictionaries (lexicography);
  • Become a consultant on language in professions such as Law or Medicine;
  • Work for an advertising company;
  • Work for the government;
  • Become an actor or train actors.
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