Why aerospace engineering

For example, one aerospace engineer may design a military helicopter, while another aerospace engineer may develop solutions to fix a satellite in space. A career in aerospace engineering allows professional engineers to design, analyze, test and troubleshoot various aerospace technologies for a variety of uses. Additionally, aerospace engineers create quality control standards, optimize design processes, identify problems with the manufacturing process or with the product itself and provide solutions to correct any problems that may occur.

Aerospace engineers tend to be extremely familiar with project engineering, systems engineering and other business roles, so these engineers are comfortable working alongside other professionals in a range of fields. As the need for technology grows, the aerospace industry evolves and requires the creativity and innovation of a new generation of aerospace engineers. Aeronautical engineers study the aerodynamic performance of a range of aircrafts, including the aircraft's materials, propulsion system and design.

These professionals design, create, produce and perform maintenance on civilian aircraft and military aircraft, aeronautical systems and components.

The aeronautical engineer is responsible for using cost-effective methods to develop ways of improving fuel efficiency and flight safety. Additionally, aeronautical engineers focus on lowering the environmental impact of air travel by creating aircraft that are more environmentally friendly. For example, an aeronautical engineer may be employed by a commercial airline company to research ways that an aircraft can use less fuel without sacrificing its speed or aerodynamics.

Astronautical engineers focus on developing and designing spacecraft as well as enhancing their technology and performance. These engineers use spacecraft to study thermodynamics, aerodynamics, celestial mechanics, propulsion, guidance systems and flight mechanics.

Astronautical engineers work with a wide range of spacecraft including rockets, satellites, missiles, space launchers, space vehicles, navigation systems and probes. For example, an astronautical engineer may be employed by a government agency to design a space vehicle that will perform research on Mars.

Related: 6 Tips for Effective Teamwork. Aerospace engineering is important because it allows for the creation of new ideas that impact flight on Earth and in space. Because the aerospace engineering field is so diverse, some aerospace engineers focus on aircraft on Earth, while other aerospace engineers study spacecraft beyond Earth. Aerospace engineers are constantly developing advanced technologies to improve flight and air travel.

Aerospace engineers work together with other engineers as part of a team in order to design and optimize air travel and space flight. Additionally, in the aerospace field, both research and projects may take place on an international scale. Thus, aerospace engineers work alongside other intellectuals who share their passion for aerospace topics. Earning a degree in aerospace engineering offers individuals the chance to be at the forefront of science and engineering in today's technologically advanced society.

With the engineering knowledge, international project experience and the communication skills learned by obtaining a degree in aerospace engineering, these engineers are able to expand their skill set and pursue a broad range of exciting careers.

Upper-level managerial positions reported a higher pay level. As reported by the United States Department of Labor, most aerospace engineers are employed by aerospace parts manufacturers, while a small portion of these engineers work in private research facilities and engineering firms. The educational requirements for entry-level aerospace engineers includes obtaining a bachelor's degree in aerospace engineering or a bachelor's degree in another engineering discipline.

A master's degree is recommended for aerospace research jobs and upper-level aerospace engineering positions. In the aerospace engineering field, these upper-level positions typically require candidates to possess a professional engineer PE license.

Aerospace engineers seeking managerial roles should have extensive knowledge of aerospace engineering concepts as well as proven work experience in the field. Aerospace engineers can work in a wide range of places, including offices, laboratories, manufacturing plants and other industrial sites.

These engineers primarily work for private companies or the federal government, where they specialize in designing and building aircraft, spacecraft, missiles or defense systems. Aerospace engineers can find positions in manufacturing, production, analysis, design and research and development. An aerospace engineer working in an office environment will use computers and software programs to design aircraft or parts for aircraft.

Using this technology, the aerospace engineer can construct a virtual model of the desired product. Aerospace engineers work primarily in the aerospace industry, at systems and software suppliers, corporate labs, government labs, and universities. The skill set of aerospace engineers is extremely broad and multidisciplinary, and the experience of aerospace engineers as systems architects and engineers allows them to make contributions in many diverse sectors.

According to the Bureau of Labor Statistics, the industries that employed the most aerospace engineers in were:. In , and for the fourth time in six years, Penn State topped the list of preferred suppliers of engineering talent to the aerospace and defense industry, according to the Aviation Week Workforce Study.

The median annual wages for aerospace engineers in the top industries in which they worked were as follows:. The Penn State Department of Aerospace Engineering, established in and the only aerospace engineering department in Pennsylvania, is consistently recognized as one of the top aerospace engineering departments in the nation, and is also an international leader in aerospace education, research, and engagement.

Our undergraduate program is ranked 15 th and our graduate programs are ranked 15 th nationally by U. Our students are consistently among the most highly recruited by industry, government, and graduate schools nationwide.

The department is built upon the fundamentals of academic integrity, innovation in research, and commitment to the advancement of industry.

Just like the infinite universe, Aerospace Engineering has a limitless scope as all major countries around the world have extensive space exploration programs. This means new rocket technologies, new space stations, new propulsion systems, and new hardware would be required in the decades to come. Aerospace Engineers around the world are highly rewarded for their work. Not only they are highly recognized, but they command high salaries, thus proving the importance of aerospace engineering.

India has a huge annual budget. This, coupled with the Make in India push, is giving a new impetus to a horde of defence organizations in the private sector.

This has encouraged companies like Tata Advanced Systems, Reliance Defence and Aerospace to form joint ventures with international companies like Airbus and Dassault.

More people are now flying than ever before!