Introduction of Aerospace Engineering
A degree in aerospace engineering will prepare you to make a difference by taking on the most difficult engineering challenges, regardless of whether your interests lie in space exploration or the use of space technology to address pressing issues closer to home.
Complex aerospace and related systems are designed, tested, and run by aerospace engineers. They develop new technologies for use in commercial aviation, defense systems, and space exploration, often specializing in areas such as systems engineering, structural design, navigational guidance and control systems, instrumentation and communications, propulsion systems, computational fluid dynamics, aerodynamics, or production methods.
Work of Aerospace Engineers
You could create a spacecraft as an aerospace engineer to send people into orbit or send astronauts to Mars.
You could develop a deep sea rover to explore the ocean floor or unmanned aerial vehicles to aid the military or advance our understanding of environmental issues.
A degree in aerospace engineering can help you achieve your goals in a variety of fields, including satellites, radar, and commercial aircraft.
The department’s research is divided into four main focus areas:
- Remote sensing,
- Earth, and space sciences;
- Astrodynamics and satellite navigation systems;
- Bioastronautics;
- And aerospace engineering systems.
M.E. Master of Engineering with a Concentration in Aerospace Engineering
Graduate students are accepted into a particular focus area, which offers financial support, and research guidance, and sets unique admission and program requirements.
An on-campus or online degree program, the Master of Engineering with a Specialization in Aerospace Engineering offers courses in topics like propulsion, fluid flow, structures, and materials and manufacturing.
Professional students who have an undergraduate engineering degree and are employed in the aerospace sector are the target audience for this program. This degree program has no thesis requirement and only requires coursework. Courses in systems engineering are offered.
Undergraduate degree
Undergraduate students’ technical and/or design elective requirements can be satisfied by courses in these focus areas, while independent study and undergraduate research opportunities round out the curriculum.
The aerospace engineering disciplines are introduced in our Aerospace Engineering Graduate Certificate. 9 credits of graduate coursework at the 500 level or higher must be completed in order to receive the certificate.
Either the certificate program alone or the certificate program in conjunction with a degree program may be applied for and completed by students. The certificate is designed for working professionals who want to stay competitive in their field, advance their knowledge, and obtain additional training. It is offered on campus and online.
Colorado Aerospace Engineering Programme facility:
Colorado departments have over $16M in ongoing aerospace-related research, and our specialists collaborate closely with government labs and industry partners to address difficult technical problems. Many of these projects offer students the chance to work on them, which advances research and strengthens Colorado’s booming aerospace industry.
Best Aerospace Engineering Schools in Colorado
Institution | Category | Location | website |
---|---|---|---|
Spartan College of Aeronautics and Technology - Broomfield Campus | Technical school | 10851 W 120th Ave | https://www.spartan.edu/denver/?utm_source=google&utm_medium=organic&utm_campaign=gmb&utm_content=website&utm_cid=7096 |
Embry-Riddle Aeronautical University | University | 1675 Long St Building 1117, Room 110 | https://worldwide.erau.edu/colorado-springs |
Ann & H.J. Smead Department of Aerospace Engineering Sciences | University department | 3775 Discovery Dr | http://www.colorado.edu/aerospace/ |
MSU Denver Aviation & Aerospace Science Department | University | 1207 E 7th Ave | http://msudenver.edu/aviation-and-aerospace/ |
CU Boulder Engineering | College | 1111 Engineering Dr | http://www.colorado.edu/engineering/ |
Engineering & Applied Science Building | Public university | 1420 Austin Bluffs Pkwy | http://eas.uccs.edu/ |
University of Colorado Boulder | University | +1 303-492-1411 | http://www.colorado.edu/ |
Practical Aeronautics | Aviation consultant | +1 719-659-7319 | http://practicalaero.com/ |
Technical College of the Rockies | College | 1765 US-50 | http://www.tcr.edu/ |
CU Denver College of Engineering, Design and Computing | Public university | 1200 Larimer St #3034 | http://engineering.ucdenver.edu/ |
University of Colorado at Boulder: Engineering Management Program | University department | 1111 Engineering Drive, 433 UCB, ECOT 417 | http://emp.colorado.edu/ |
Ritchie School of Engineering and Computer Science, University of Denver | University department | University of Denver, 2155 E Wesley Ave | http://ritchieschool.du.edu/ |
ATLAS Institute, University of Colorado Boulder | Research institute | University of Colorado Boulder, 320 UCB, 1125 18th St | http://colorado.edu/atlas |
Colorado State University | University | · | https://www.colostate.edu/ |
Aims Community College | Community college | 5401 W 20th St | https://www.aims.edu/ |
Colorado School of Mines | Public university | 1500 Illinois St | http://www.mines.edu/ |
Colorado State University-Global Campus | University | 585 Salida Way | http://csuglobal.edu/ |
University of Colorado Denver | University | 1201 Larimer St | http://www.ucdenver.edu/ |
CU Boulder East Campus | University | http://www.colorado.edu/ | |
Colorado Mesa University | Public university | 1100 North Ave | https://www.coloradomesa.edu/ |
Scope of aerospace Engineering
Your knowledge of the engineering processes involved in the design, production, and maintenance of machines that can fly will grow as a result of pursuing an education in aerospace engineering.
World-class faculty will guide you through the understanding of engineering disciplines such as mechanics of fluids, chemical movement, control, and stabilization, burning, and laser testing, in order, and frameworks in four hands-on academic programs in aerospace engineering.
As they relate to rockets and aircraft that travel both inside and outside of the Earth’s atmosphere.
To better prepare our students for the demands of a rapidly changing industry, our curricula are constantly being updated.
JOb opportunities and Expected salary
It is anticipated that employment for aerospace engineers will grow at an average rate through 2018, rising by 7 to 13%. Due to the upcoming retirement of current aerospace engineers, there is still a need for new graduates. (U.S. Bureau of Labor Statistics)
For aerospace engineers nationwide, the starting salary average is $58,000. The starting salary was $62,000 on average. (National Association of Colleges and Employers).