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Aerospace Engineering is the designing and building of machines that are capable of flying. It is one of the most recent branches of engineering and it started in the 19th century with the first experiments in a powered flight.
As technology advances more, two specializations in Aerospace Engineering came to being, they are:
1. Aeronautical Engineering, which involves the designing of aircrafts such as a powered and lighter-than-air craft, gliders, airplanes that are have fixed-wing and jets, autogyros, and helicopters.
2. Astronautical Engineering, which focuses more on the design and development of spacecrafts.
Aeronautical Engineers are involved in the design and development of aircraft that fly within the atmosphere of the Earth, while astronautical engineers work with the science and technology of designing and developing spacecraft that fly outside the Earth's atmosphere.
Aerospace Engineers primarily work in professional office settings. They may once in a while visit manufacturing and testing facilities where a problem or a particular piece of equipment requires their personal attention, according to the BLS. Aerospace engineers work mostly in manufacturing industries and in the federal government industries for flying machines and equipment. Also, a few numbers of aerospace engineers are selected to work on the International Space Station.
Many employers, especially those that have engineering consulting services, also need the certification to be a professional engineer. Engineers need ongoing education and training to keep up to date with several advances in technology, materials, computer hardware, and computer software, and also with government regulations. Also, several aeronautical engineers belong to the American Institute of Aeronautics and Astronautics (AIAA).
An Aeronautical education is broadly respected. And this is because of the very wide and great recognition and reputation of the UK aerospace industry, several graduates in this field may find job opportunities to work as permanent or temporary employment home and abroad. Everyone can do this by taking certification courses, attending conferences and working within international partnerships and consortiums (and that is a combination of businesses working towards a joint venture) that are related to the field.
Below is a few descriptions of what an Aerospace engineer does.
1. Assessing requirements of system designs.
2. Agreeing budgets, timescales and system and machine specifications with clients and managers.
3. Undertaking both theoretical and practical research.
4. Producing and bringing out the products of designs and test procedures.
5. Measuring and improving the operation and performance of aircraft, components, and systems.
6. Assembling the aircraft or fitting their components into them.
7. Testing, evaluating, editing and re-testing their products.
8. Writing reports, making manuals and keeping more concise and clear documentation.
9. Providing technical advice to the users.
10. Investigating the causes of plane crashes and system failures.
11. Analyzing and interpreting the data that is on the system.
Some of the benefits of studying Aerospace Engineering include:
1. You get to understand the internal and external workings of flying machines.
2. You get to work in a field with a competitive salary.
3. You gain more technical knowledge.
4. You gain knowledge of how to diagnose flying devices.
5. You get a lot of job opportunities and career advancement in the aviation industry.
6. Increase your earning potential as an engineer.
Aerospace Engineering - Introduction
Aerospace Engineering - Aircraft
Aerospace Engineering - Spacecraft
Aerospace Engineering - Introductory Mathematical Concepts
Aerospace Engineering - Concepts
Aerospace Engineering - Flight Test Concept
Aerospace Engineering - Aerodynamics Introduction
Aerospace Engineering - Fundamental Physical Properties of a Fluid
Aerospace Engineering - Types of Aerodynamic Flows
Aerospace Engineering - Similarity Parameters
Aerospace Engineering - Review of Thermodynamics
Aerospace Engineering - Fundamental Equations of Fluid Motion
Aerospace Engineering - Aerodynamics Forces and Moments
Aerospace Engineering - Two-Dimensional Lifting Shapes: Airfoils
Aerospace Engineering - Three Dimensional Aerodynamics: Wings
Aerospace Engineering - Compressible, Subsonic and Transonic Flows
Aerospace Engineering - Supersonic Flow
Aerospace Engineering - Viscous Flow
Aerospace Engineering - Hypersonic Flow
Aerospace Engineering - Propulsion Introduction
Aerospace Engineering - Propulsive Flows with Heat Addition and Work
Aerospace Engineering - Derivation of the Thrust Equations
Aerospace Engineering - Thrust and Power Curves for Propeller-Driven and Jet Engines
Aerospace Engineering - Air-Breathing Propulsion
Aerospace Engineering - Rocket Propulsion
Aerospace Engineering - Types of Non-Air-Breathing Propultion
Aerospace Engineering - Types of Air-Breathing Propulsion
Aerospace Engineering - Performance Introduction
Aerospace Engineering - Performance Altitude
Aerospace Engineering - Physical Description of the Atmosphere
Aerospace Engineering - Equation of Fluid Statics: The Hydrostatic Equation
Aerospace Engineering - The Standard Atmosphere
Aerospace Engineering - Air Data System Measurements
Aerospace Engineering - The Equations of Motion for Unaccelerated Flight
Aerospace Engineering - Level Flight Performance
Aerospace Engineering - Climb Performance
Aerospace Engineering - Glide Performance
Aerospace Engineering - The Polar Diagram
Aerospace Engineering - Energy Concepts
Aerospace Engineering - Turn Performance
Aerospace Engineering - Takeoff and Landing Performance
Aerospace Engineering - Stability and Control Introduction
Aerospace Engineering - Aircraft Stability
Aerospace Engineering - Aircraft Control
Aerospace Engineering - Aircraft Body Axes, Sign Convention and Nomenclature
Aerospace Engineering - Longitudinal Static Stability
Aerospace Engineering - Longitudinal Control
Aerospace Engineering - Lateral-Directional Static Stability and Control
Aerospace Engineering - Summary of Static Stability and Control Derivatives
Aerospace Engineering - Dynamic Stability
Aerospace Engineering - Handling Qualities
Aerospace Engineering - Video Lectures
Aerospace Engineering - Exams and Certification
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