Aerospace engineering?
The field of engineering known as aerospace engineering, also known as aeronautical engineering or astronautical engineering, is concerned with the design, development, construction, testing, and operation of vehicles operating in the Earth’s atmosphere or in space. The first definition of aerospace engineering, which treated the Earth’s atmosphere and the space above it as a single domain for the development of flight vehicles, first appeared in 1958. Today, the terms aeronautical engineering and astronautical engineering are frequently replaced with the broader definition of aerospace.
An aerospace engineer?
An aerospace engineer may be the ideal career choice for you if you enjoy creating and building flying machines.
An aerospace engineer oversees the design, testing, and production of missiles, spacecraft, satellites, and aircraft. Additionally, they test prototypes to ensure that they perform as intended and create new technologies for use in aerospace, defense, and military systems.
A particular type of aerospace product, such as missiles and rockets, military fighter jets, spacecraft, helicopters, or commercial aircraft, can be the focus of an aerospace engineer’s specialization.
Alternatively, they might decide to focus on a particular field, like instrumentation and communication, navigation and control, structural design, direction, or production techniques. They primarily work for the federal government, manufacturing, industries that conduct research and development, and analysis and design.
Responsibilities and tasks for aerospace engineers:
- Consider proposals and design specifications
- Analyze the technical and financial viability of projects.
- Discuss costs, deadlines, and requirements with clients.
- Conduct both theoretical and applied research.
- Determine whether designs adhere to engineering principles by evaluating them.
- Make sure designs adhere to client specifications.
- Design, manufacture, and test procedures should be directed, coordinated, produced, and implemented.
- Aircraft, systems, and component performance should be evaluated and improved.
- aid in the assembly of aircraft
- evaluates, tests, changes, and retests products.
Best Aerospace Engineering Schools in Oregon
No other website offers you as much useful information about engineering schools in Oregon as ours does. In order to assist you in finding a college that meets your needs, we have created a ranking of the top engineering colleges in Oregon for the year 2023. The ranking of each school is determined by combining information from reputable government sources, student surveys, interviews with college graduates, and editorial reviews. You can also view our complete list of the 20 best aerospace engineering schools in Oregon.
Best Aerospace Engineering Schools in Oregon
Institution | Category | Location | website |
---|---|---|---|
Embry-Riddle Aeronautical University | University | 8338 NE Alderwood Rd Suite 155 | https://worldwide.erau.edu/locations/portland |
College of Engineering | College | 101 Covell Hall, 1691 SW Campus Way | http://engineering.oregonstate.edu/ |
Shiley School of Engineering | College | Shiley Hall, 5000 N Willamette Blvd | http://engineering.up.edu/ |
School of Chemical, Biological and Environmental Engineering | University department | 105 SW 26th St #116 | http://cbee.oregonstate.edu/ |
Oregon State University | University | Public school known for research | http://oregonstate.edu/ |
Oregon State University School of Civil and Construction Engineering | University department | Kearney Hall, 1491 SW Campus Way | http://cce.oregonstate.edu/ |
Oregon Tech | University | 3201 Campus Dr | https://www.oit.edu/ |
University of Oregon | University | 1585 E 13th Ave | http://www.uoregon.edu/ |
College of Arts and Sciences | University | E 13th Ave | |
Graduate School, Oregon State University | Graduate school | Heckart Lodge, 2900 SW Jefferson Way | http://gradschool.oregonstate.edu/ |
INTO Oregon State University | University | International Living-Learning Center, 1701 SW Western Blvd | http://www.intohigher.com/oregonstate |
College of Design | Public university | 1206 University St | https://design.uoregon.edu/ |
Oregon State University College of Education | University | Joyce Collin Furman Hall, 200 SW 15th St | http://education.oregonstate.edu/ |
School of Journalism & Communication | University department | Allen Hall, 1275 University of Oregon | http://journalism.uoregon.edu/ |
Lundquist College of Business | Business school | 1208 University St | http://business.uoregon.edu/ |
Clark Honors College | University | 1293 University St | http://honors.uoregon.edu/ |
Accessible Education Center | University department | 1443 E 13th Ave | http://aec.uoregon.edu/ |
School of Music & Dance | School | MarAbel B. Frohnmayer Music Building, 1225 E 18th Ave | http://music.uoregon.edu/ |
Selmet Inc. | Foundry | 33992 7 Mile Ln SE | https://www.selmetinc.com/ |
British Columbia Institute of Technology - Aerospace Technology Campus | Technical university | 3800 Cessna Dr | https://www.bcit.ca/about/visit/campuses-directions/aerospace/ |
Five phases of aerospace engineering
The design process for the majority of aerospace products can be broken down into five phases.
- A marketing analysis is the first step in the process to identify the needs or requirements of the customer. Engineers in the aerospace industry are hired to look into technical, operational, or financial issues.
- The aerospace engineers who make up the conceptual design team initially sketch out the vehicle’s dimensions and configuration. The vehicle’s weight, performance, and propulsion systems are all given preliminary estimates.
- The preliminary design phase is in phase three. The starting point is phase two-optimized vehicle design. The configuration is computer-analyzed by aerospace engineers, who then construct and test wind tunnel models.
- A prototype is built during phase four, the detailed design phase. The drawings required to construct each component are created with assistance from draftsmen, technicians, and mechanical engineers.
- The prototype is tested in flight during the last stage. To ensure that the vehicle is safe and operates as expected, engineers and test pilots collaborate. If the prototype is intended to be a commercial transport plane, it must adhere to the regulations set forth by regulatory bodies like the Federal Aviation Administration in the US and the Civil Aviation Authority in the UK.