One stop website to educate students about various universities and programs in USA, American universities are widely known for the quality of their teaching and research. The USA has a special allure and has always been drawing talented students like a magnet. Studying abroad in an American university will allow for invaluable academic, professional and personal growth, and open up an infinite number of career opportunities after graduation. USA is the number one and largest destination for international students seeking higher education overseas. The education system in USA is the most versatile and flexible higher education system for international students in the world.
College offers you many academic freedoms. You can cultivate existing passions and explore new interests-all the while figuring out which major will eventually help you earn a living. Whatever major you choose, do not pick what is easiest or what your friends are studying because you will only be cheating yourself out of some great opportunities! And college is, after all about opportunities.
These are not necessarily the degrees that garner the most demand in the job market; they do not lock you into a set career path. Each major offers unique intellectual challenges and develops skill sets that will be applicable to various careers.
Most US Universities have two admission intakes every year, when they accept students into their respective classes and courses. A vast majority of universities go by the fall and spring semesters. Fall semesters starts in late August and ends in late December or early January, whereas the spring semester begins in January and ends in early May.
Architectural engineers specialize in designing the engineering systems within buildings. Architectural Engineering is in many ways similar to civil and mechanical engineering, but it is specifically geared toward the building industry. Architectural Engineering majors study in planning, design, construction and operation of engineered systems for all different kinds of buildings. What kind of engineered systems, you ask? In a nutshell, all those tremendously important things in every building that no one really notices like electrical systems, lighting, heating, ventilating, air conditioning, fire protection, plumbing and structural systems.
If you decide to major in Architectural Engineering, you will study the fundamentals of engineering and building construction as well as architectural history and design, math, the physical sciences, computer programming and surveying.
It is about computers hardware and software, applications of such knowledge, database, technology focus, Robotics, natural language recognition programs, artificial intelligence, programming languages, numerical analysis, gaming technology and problem solving. Job areas: computer programmer, system analyst, data analyst, database administrator, network specialist and IT management etc.,
If you major in Civil Engineering, you will probably choose from one of many different specialties in the field including transportation, structures, materials, hydro systems, geotechnical, environmental and construction. When you graduate, you should not have a problem getting a job. As environmental concerns grow, and as technological innovations continue at a breakneck pace, the demand for civil engineers will rise. After all somebody has to design construct and maintain the infrastructure and the facilities that are essential to our civilization.
Electrical engineers design, develop, and test electrical equipment. They figure out ways to generate and control electrical energy. Electrical engineers work with every kind of device imaginable, from computers to clock radios to global positioning devices. They also really know the difference between amperage (strength), voltage (force), and wattage (power) of a current, and can toss off these terms and others with ease. A major in Electrical engineering requires extensive work in math and science. You can expect to take several classes in physics and calculus before moving into the more detailed study of electrical systems.
Diversity is the key word when it comes to Mechanical Engineering. There are many fields in which Mechanical engineering plays a role: automated manufacturing, environmental control, transportation, biomedical fields, computer fields, fossil fuel and more … list goes on and on. Mechanical Engineers are concerned with imagining and implementing programs and devices that improve our world and our movement in it. A Mechanical Engineering major’s designing endeavors are diverse, from tiny measuring instruments to huge aircraft carriers or power plants. They also are involved with testing, evaluating, distributing and marketing the devices they and their colleagues create. If all of these challenges appeal to you, Mechanical Engineering might be a major to consider.
Material Science is a major that explores these materials in-depth. You will learn about the structure and properties of materials, and the relationships between them. You will learn what controls and affects internal structures, and the processes that can alter them. Why materials act the way they do will be one areas of concentration; how materials are processed will be another. You will also learn how to produce new materials, and the variety of uses for existing ones. You will study a great deal of physics and chemistry in this major, and you will be immersed in a great deal of laboratory work. You will learn how to apply mathematics to your studies, and you will do a lot of problem solving using your newfound skills. Communications technology, the computer industry and biotechnology are just a few of the modern fields that require the expertise of materials scientists and engineers. As a Materials Science major, you will become skilled at identifying, characterizing, manufacturing, designing, and processing many materials we use in our everyday life. Many universities suggest that we are living in the Materials Age so you can be confident that your major will lead to an exciting career.
If you major in Chemical Engineering, you will learn how to reorganize the structure of molecules and how to design chemical processes through which chemicals, petroleum, foods and pharmaceuticals can undergo. You will learn how to build and operate industrial plants where raw materials are chemically altered. You will learn how to build and operate industrial plants where raw materials are chemically altered. You will learn how to keep the environment safe from potential pollution and hazardous waste, too. Paper mills, manufactures of fertilizers, pharmaceutical companies, plastics makers and tons of other kinds of firms will be looking for just your expertise, and they will pay you pretty handsomely for it. You should also know that, traditionally more chemical engineering majors obtain master’s and doctoral degrees than students in almost any other engineering field.
It is about stellar people skills, problem solving, number crunching, and decision making and communication skills. Job areas: accounting, finance, marketing, economics, statistics and human resources functions. Other issues: kinds of organizations, diversity, ethics, politics.