麻豆视频

CU听Boulder is the place for aerospace. From conceptualizing to planning, building and creation, student teams apply engineering concepts in hands-on design courses and consistently win national awards. Through independent study, students can impact the real world by helping to develop hardware for payloads that carry experiments to the International Space Station, participating in Mission Operations, or designing and building satellites for launch. Students learn leadership skills and are exposed to project management and systems engineering while working on complex aerospace engineering projects. Extracurricular activities like the Design, Build, Fly competition and the Colorado Space Grant Consortium provide additional opportunities to explore real-world applications of your aerospace engineering major. Students also can participate in the student chapter of the American Institute of Aeronautics and Astronautics on campus and in the group CU Students for the Exploration and Development of Space.

Nineteen CU听Boulder affiliates have flown in space as NASA astronauts, making CU one of the nation鈥檚 top five non-military schools for producing astronauts. In 2010 the National Research Council ranked the aerospace PhD program among the top four in the nation, and the FAA chose CU听Boulder for a Center of Excellence for Commercial Space Transportation. An innovative idea for a hybrid engine went from undergraduate project to an incubated company through eSpace, the Center for Space Entrepreneurship, which is dedicated to commercializing new technologies for space.

Aerospace engineering faculty have been highly successful in winning grants for their research, which provides exciting opportunities for students to be involved in such projects as the Dream Chaser next-generation crew vehicle being developed by Sierra Nevada Corp., and DANDE, a student-designed small satellite that won a national competition. CU听Boulder aerospace chairs launched the Aerospace Systems Science and Engineering Initiative, a college-wide enterprise allowing faculty and students from many disciplines to focus on technology development to solve critical problems in the Earth and space sciences.

Research in the department is organized into four focus areas: aerospace engineering systems; astrodynamics and satellite navigation systems; bioastronautics; and remote sensing, Earth, and space sciences. Coursework in these focus areas can satisfy technical and/or design elective requirements for undergraduate students, while independent study and undergraduate research opportunities complement the curriculum. Graduate students are admitted into a specific focus area, which provides research advising, financial support, and sets specialized admission and program requirements.

CU aerospace engineering graduates work within the private-sector aerospace industry or for federal government agencies such as NASA, the Department of Defense, and the U.S. Air Force. Many CU graduates can be found at companies such as ATK, Boeing, Lockheed Martin, Raytheon, Northrop Grumman, Ball Aerospace & Technologies Corp., and the United Launch Alliance. A number of small start-up companies in the aerospace industry also hire CU grads.

麻豆视频 20 percent of CU听Boulder engineering bachelor鈥檚 graduates (college-wide) continue onto graduate school, gaining admittance to top schools such as MIT, Princeton, Harvard, Cornell, Stanford, University of California Berkeley, and the University of Texas at Austin.

Employment for aerospace engineers is projected to have an average growth rate, with employment projected to increase 7 to 13 percent through 2018. New graduates continue to be needed due to the retirement of current aerospace engineers. (U.S. Bureau of Labor Statistics)

The average starting salary nationally for aerospace engineers is $58,000. The median starting salary was $62,000. (National Association of Colleges and Employers).