What is aerospace engineering?
Aerospace engineering covers the creation of spacecraft, aircraft, and related systems and apparatus, as well as their design, development, testing, and production. Aeronautical engineering and astronautical engineering, the two dominant and overlapping branches of the field, have historically focused on problems pertaining to atmospheric and space flight.
Aeronautical engineering’s primary topics are the theory, technology, and applications of flight within the earth’s atmosphere.
The primary areas of interest in astronautical engineering are the science and technology of spacecraft and launch vehicles.
What does an aerospace engineer do?
Aerospace engineers develop cutting-edge technology, which is then incorporated into aerospace vehicle systems for use in transportation, communications, exploration, and defense. This covers the design and testing of items, parts, and subassemblies related to aerospace and aviation as well as the development and production of missiles, propulsion systems, satellites, and aircraft.
Successful aerospace engineers are experts in propulsion, materials and structures, vehicle dynamics and control, software, and aerodynamics.
Best Aerospace Engineering Schools in Newzealand
The top universities in New Zealand are listed below, ranked according to how well they perform in aerospace engineering research. The publications’ ratings were computed using this table of 15 best AEROSPACE universities in New Zealand created by engineeringuniversities.net, which was then corrected for release dates and added to final scores.
Best Aerospace Engineering Schools in Newzealand
| Institution | Category | Location | website |
|---|---|---|---|
| Nelson Marlborough Institute of Technology, Nelson Campus | Educational institution | 322 Hardy St | https://www.nmit.ac.nz/ |
| Faculty of Engineering | University department | 20 Symonds St | http://www.engineering.auckland.ac.nz/ |
| International Aviation Academy of New Zealand (IAANZ) | Aviation training institute | 25 Aviation Dr | https://www.flighttraining.co.nz/ |
| School of Engineering and Advanced Technology | University department | Kell Dr | http://www.massey.ac.nz/ |
| UC Department of Mechanical Engineering | University | +64 3 369 2229 | http://www.canterbury.ac.nz/engineering/schools/mechanical/ |
| Massey University School of Aviation | University department | 47 Airport Dr | http://aviation.massey.ac.nz/ |
| Auckland University of Technology | University | 55 Wellesley St E | http://www.aut.ac.nz/ |
| University of Canterbury | University | 20 Kirkwood Ave | https://www.canterbury.ac.nz/ |
| Ardmore Flying School | Flight school | 2 Harvard Lane | https://ardmore.co.nz/ |
| Air New Zealand Academy of Learning | Aviation | 7/13 Rennie Dr | https://www.airnzlearning.co.nz/ |
| Wintec Te Pūkenga - City campus | Technical school | Tristram St | http://www.wintec.ac.nz/ |
| University of Waikato | University | Multidisciplinary campus university | https://www.waikato.ac.nz/ |
| The University of Auckland | University | New Zealand's oldest university | https://www.auckland.ac.nz/en.html |
| University of Otago | University | 362 Leith St | https://www.otago.ac.nz/ |
| International Office - UoA | Public university | 24 Princes St | https://www.auckland.ac.nz/en/study/international-students.html |
MOst Companies employ aerospace engineers:
Aerospace engineers primarily work in the aerospace industry, at corporations, government agencies, universities, and software and system suppliers. Because of their extensive and multidisciplinary skill sets and prior work as systems architects and engineers, aerospace engineers can contribute to a wide range of industries.
The Bureau of Labor Statistics reports that in 2014, the following industries employed the most aerospace engineers:
Manufacturing of aerospace products and parts: 38%
Services in engineering: 14%
postal service excluded from the federal government: 13%
Physical, engineering, and life sciences research and development: 12%
Manufacturing of control, electromedical, measuring, and navigational instruments: 5%
According to the Aviation Week 2016 Workforce Study, Penn State topped the list of preferred suppliers of engineering talent to the aerospace and defense industry in 2016 for the fourth time in six years.
How much does an aerospace engineer get paid?
The Bureau of Labor Statistics reports that in May 2014, the median annual salary for aerospace engineers was $105,380. In the top industries where they worked, aerospace engineers’ median annual salaries were as follows:
$113,550 for the federal government but not for postal services.
Manufacturing of control, electromedical, measuring, and navigational instruments = $111,660
Physical, engineering and life sciences research and development cost a total of $107,490.
= $103,450 for engineering services
Manufacturing of aerospace products and parts = $102,430
Penn State Aerospace Engineering undergraduates’ starting salaries in 2015–2016 were on average $63,286 per year.
