Automotive engineering is a broad field that encompasses several different types of engineering. Each type is designed to solve different problems in the automotive industry and can lead to very different careers. Here are five common types of automotive engineering:
1. Aerospace Engineering
Aerospace engineering is the branch of mechanical engineering that deals with the design, construction and maintenance of aircraft. Aerospace engineers also design and develop new technologies to improve aircraft performance and efficiency.
Aerospace engineers use their knowledge of physics and mathematics to solve problems involving lift, drag, thrust and weight distribution for various types of aircraft. They use computer-aided design (CAD) software programs to create designs for new planes or fix problems with existing ones. Many aerospace engineers work in research laboratories where they conduct experiments on jet propulsion systems or wind tunnel testing techniques used by other companies producing planes for commercial airlines such as Boeing Co., Airbus SE and Bombardier Inc..
Some aerospace engineers work at airports where they oversee flight operations such as taxiing airplanes safely onto runways before takeoff; landing them after flying long distances; refueling them so they can continue flying; guiding them into designated parking spots once they’ve landed safely; loading cargo onto each plane prior to departure time according
2. Automotive Technology Engineering
Automotive Technology Engineering is a branch of engineering that deals with the design, construction and operation of vehicles. It also goes by the name Automotive Engineering or Mechanical Engineering, but these terms are more specific to certain types of vehicles.
The automotive industry is one of the largest industries in the world, producing millions of cars each year for consumers around the globe. This makes sense when you consider how many different types there are: from small family sedans all the way up to sports cars and trucks used for hauling heavy equipment (like tractors).
3. Mechanical Engineering
Mechanical engineering is the branch of engineering that applies the principles of physics and materials science for analysis, design, manufacturing, and maintenance of mechanical systems. It is the branch of engineering that deals with the design, production and operation of machinery. Mechanical engineers are responsible for taking raw materials and transforming them into finished products through several stages: conceptualization; design; manufacture; construction; commissioning/installation; operation & maintenance; disposal.
4. Energy Engineering
Energy engineering is a broad field that covers energy production and conversion, as well as conservation. Energy engineers design, develop and test equipment that uses energy. This includes everything from wind turbines to solar panels and batteries.
Energy engineers work closely with mechanical engineers in all aspects of their work, but they also collaborate with other professionals such as chemical engineers (who specialize in making new materials), electrical engineers (who focus on electronics) or even physicists (who study matter).
5. Engineering Design Technology/Mechanical Design
Engineering design technology is a subset of mechanical engineering. It’s about designing products that meet the needs of the customer, are safe and efficient, reliable and last but not least cost effective.
Engineering design technology is a broad field that covers many disciplines including: computer-aided design (CAD), computer-aided manufacturing (CAM), industrial automation, rapid prototyping etc..
The types of automotive engineering are many and varied
The types of automotive engineering are many and varied. The first thing you should know is that there are two main types: mechanical, electrical and electronic (MEE). Both of these branches have subcategories within them, so you can specialize even further if you want to in order to narrow down your search for a job or internship.
Mechanical engineers work with mechanical components like engines and transmissions; they might design new parts or improve existing ones by making them lighter or more efficient. Electrical engineers design circuits (the wiring inside your car), while electronic engineers design microchips that control things like climate control systems or anti-lock brakes.
The different specializations within each type require different skillsets–for example an automotive engineer might need knowledge of electronics but not necessarily mechanics–so make sure that whatever area interests you most matches up with what kind of education path works best for your career goals!
As you can see, there are many different types of automotive engineering. Each one has its own focus and takes a different approach to solving problems. This can make it difficult for students to decide which one they want to pursue as a career path, but hopefully this article has helped clear up some confusion on that front! If you’re still unsure about what kind of engineer you want to be after reading through all these options–or if none of them sound like they’d suit your interests–then don’t worry: there are plenty more careers out there than just those five choices listed above (like mechanical design or energy efficiency research).