Aerospace Engineering - Courses, Subjects, Eligibility, Exams, Scope & Careers

What Are Aerospace Engineers Responsible For?

Aerospace Engineers Are Primarily Responsible For The Design Of Aircraft, Spacecraft, Satellites, And Missiles. In Addition, The Design And Test Prototypes To Ensure That They Work As Intended.

Aerospace Engineers Are Responsible For The Design Of Aircraft, Spacecraft, Missiles, And Satellites. They Receive Project Proposals And Evaluate Them Based On A Variety Of Criteria. Aerospace Engineers Can Create New Technologies In These Fields, Allowing Them To Design New Types Of Aerospace Products. They Must Ascertain Whether The Proposed Project Is Technically Feasible, Financially Feasible, And Safe. They Will Determine Whether The Product Meets The Needs Of The Customer, Whether It Can Withstand Environmental Challenges, And Whether It Adheres To Engineering Principles. They Are In Charge Of Coordinating The Design And Manufacturing Of The Product Once A Project Has Been Approved. They Will Also Direct The Final Product Testing And Ensure That The Project Meets The Necessary Quality Standards. If There Is A Flaw Or Damage To A Product, They Must Identify It.

Aerospace Engineers' Responsibilities

Aerospace Engineers Typically Perform The Following Tasks:

• Coordinate And Direct The Design, Manufacture, And Testing Of Aircraft And Aerospace Products.
• Examine Project Proposals To See If They Are Technically And Financially Feasible.
• Determine Whether The Proposed Projects Will Result In Safe Operations That Meet The Defined Objectives.
• Examine Designs To Ensure That They Adhere To Engineering Principles, Customer Specifications, And Environmental Regulations.
• Create Acceptance Criteria For Design Methods, Quality Standards, After-delivery Support, And Completion Dates.
• Ascertain That Projects Adhere To Quality Standards.
• Inspect Faulty Or Damaged Products To Determine The Source Of The Problem And Solutions.

Aerospace Engineers May Create New Technologies That Will Be Used In Aviation, Defence Systems, And Spacecraft. Aerodynamic Fluid Flow, Structural Design, Guidance, Navigation, And Control, Instrumentation And Communication, Robotics, And Propulsion And Combustion Are Some Of The Areas In Which They Frequently Specialise.

Commercial And Military Aeroplanes And Helicopters; Remotely Piloted Aircraft And Rotorcraft; Spacecraft, Including Launch Vehicles And Satellites; And Military Missiles And Rockets Are All Examples Of Aerospace Products That Engineers Can Specialise In.

Aerospace Engineers Frequently Specialise In One Or More Of The Following Areas: Aerodynamics, Thermodynamics, Materials, Celestial Mechanics, Flight Mechanics, Propulsion, Acoustics, And Guidance And Control Systems.

Aerospace Engineers Typically Specialise In Either Aeronautical Or Astronautical Engineering.

Aeronautical Engineers Work On Planes. They Are Primarily Involved In The Design Of Aircraft And Propulsion Systems, As Well As The Study Of The Aerodynamic Performance Of Aircraft And Construction Materials. They Are Concerned With The Theory, Technology, And Practice Of Flying Within The Earth's Atmosphere.

Astronautical Engineers Study Spacecraft Science And Technology, As Well As How They Perform Inside And Outside The Earth's Atmosphere. Work On Small Satellites, Such As CubeSats, As Well As Traditional Large Satellites, Is Included.

When Designing Aircraft And Spacecraft, Aeronautical And Astronautical Engineers Must Deal With A Variety Of Environmental And Operational Issues. However, The Two Fields Have A Lot Of Overlap Because They Both Rely On Basic Physics Principles.

Aerospace Engineers' Working Environment

There Are Approximately 61,400 Aerospace Engineers Employed. The Following Companies Are The Largest Employers Of Aerospace Engineers:

• Manufacturing Of Aerospace Products And Parts 36%
• Engineering Services 18%
• The Federal Government, Excluding Postal Services 17%
• Navigation, Measuring, Electromedical, And Control Instruments Manufacturing 9%
• Physical, Engineering, And Life Sciences Research And Development 8%

Aerospace Engineers Work In Industries That Design Or Build Aircraft, Missiles, National Defence Systems, Or Spacecraft. They Mostly Work For Companies That Do Manufacturing, Analysis And Design, Research And Development, And The Federal Government. Because Modern Aircraft Design Necessitates The Use Of Sophisticated Computer Equipment And Software Design Tools, Modelling, And Simulations For Tests, Evaluation, And Training, Aerospace Engineers Now Spend More Of Their Time In An Office Environment Than In The Past.

Getting A Job As An Aerospace Engineer

Obtain The Necessary Education: Find Aerospace Engineering Schools In Your Area!

Aerospace Engineers Must Have A Bachelor's Degree In Aerospace Engineering Or A Related Field Of Engineering Or Science. Aerospace Engineers Who Work On National Defence Projects May Require A Security Clearance. Certain Types And Levels Of Clearance May Necessitate US Citizenship.

Aerospace Engineer Education Typically, Entry-level Aerospace Engineers Require A Bachelor's Degree. Students In High School Who Want To Study Aerospace Engineering Should Take Courses In Chemistry, Physics, Advanced Math, Computer Programming, And Computer Languages.

Aerospace Engineer Education

 Typically, Entry-level Aerospace Engineers Require A Bachelor's Degree. Students In High School Who Want To Study Aerospace Engineering Should Take Courses In Chemistry, Physics, Advanced Math, Computer Programming, And Computer Languages.

General Engineering Principles, Propulsion, Stability And Control, Structures, Mechanics, And Aerodynamics, Which Is The Study Of How Air Interacts With Moving Objects, Are All Covered In Bachelor's Degree Programmes.

Some Colleges And Universities Offer Cooperative Programmes In Collaboration With Local Businesses That Provide Students With Hands-on Experience While They Finish Their Education. Cooperative Programmes And Internships Provide Students With Valuable Experience While Also Funding A Portion Of Their Education.

A Student Can Enrol In A 5-year Programme At Some Universities That Leads To Both A Bachelor's Degree And A Master's Degree Upon Completion. A Graduate Degree Will Enable An Engineer To Work As A University Instructor Or In Research And Development. Aerospace Engineering Programmes Are Accredited By ABET.

Degree Courses

• B.Tech Aerospace Engineering
• B. Tech. Aeronautical Engineering- Aerodynamics
• B. Tech. Aeronautical Engineering- Aircraft Maintenance
• B. Tech. Aeronautical Engineering- Aircraft Structures
• B. Tech. Aerospace Engineering- Propulsion

Masters Courses

• M.Tech Aerospace Engineering
• M. Tech In Aeronautical Engineering
• M.Tech Aerodynamics And Propulsion

Doctorate Course

• M.Tech Ph.D Aerospace Engineering

Certification Course

• Advanced Certification Course In Aerospace Engg

Which Are The Best Colleges To Attend To Become An Aerospace Engineer?

1. Savitribai Phule Pune University, Pune
2. Indian Institute Of Technology (Indian School Of Mines) Dhanbad
3. Maharaja Sayajirao University Of Baroda, Vadodara
4. Shanmugha Arts Science Technology And Research Academy, Thanjavur 
5. Alliance University, Bengaluru
6. Manipal Institute Of Technology, Manipal 

Aerospace Engineers Must-Have Qualities

Analytical Abilities- Aerospace Engineers Must Be Able To Recognise Design Elements That May Fail To Meet Requirements And Then Develop Alternatives To Improve The Performance Of Those Elements.

Business Acumen- Aerospace Engineers Spend A Lot Of Time Meeting Federal Government Standards. Meeting These Standards Frequently Necessitates Knowledge Of Standard Business Practices As Well As Commercial Law. Furthermore, Project Management Or Systems Engineering Skills Are Required.

Critical-thinking Abilities- Aerospace Engineers Must Be Able To Create Designs That Meet Governmental Standards As Well As Determine Why A Particular Design Does Not Work. They Must Be Able To Ask The Appropriate Question And Then Find An Acceptable Response.

Maths Abilities- Aerospace Engineers Use Calculus, Trigonometry, And Other Advanced Maths Concepts In Their Work For Analysis, Design, And Troubleshooting.

Problem-solving Abilities- When Meeting New Demands For Aircraft, Such As Increased Fuel Efficiency Or Improved Safety, Aerospace Engineers Use Their Education And Experience To Upgrade Designs And Troubleshoot Problems.

Writing Abilities- Aerospace Engineers Must Be Able To Write Papers That Clearly Explain Their Designs As Well As Create Documentation For Future Use.

Aerospace Engineer Licences, Certifications, And Registrations

Aerospace Engineer Licensure Is Not As Common As It Is For Other Engineering Occupations, And It Is Not Required For Entry-level Positions. Later In One's Career, One Can Obtain A Professional Engineering (PE) Licence, Which Allows For Greater Levels Of Leadership And Independence. Professional Engineers Are Licenced Engineers (PEs). A PE Can Supervise The Work Of Other Engineers, Sign Off On Projects, And Offer Direct Services To The Public. Generally, State Licensure Is Required.

• A Degree In Engineering From An ABET-accredited Programme
• Obtaining A Passing Grade On The Fundamentals Of Engineering (FE) Exam Work Experience That Is Relevant, Typically At Least Four Years
• A Pass On The Professional Engineering (PE) Exam.

After Earning A Bachelor's Degree, You Can Take The First FE Exam. Engineers Who Pass This Exam Are Referred To As Engineers In Training (EITs) Or Engineer Interns (EIs). After Completing The Work Experience Requirements, EITs And EIs Are Eligible To Take The Second Exam, The Principles And Practice Of Engineering.

Each State Is Responsible For Issuing Its Licences. Most States Accept Licence From Other States As Long As The Licencing State's Requirements Meet Or Exceed Their Own. Continuing Education Is Required In Several States For Engineers To Keep Their Licences.

Other Aerospace Engineer Experience

Students In High School Can Attend Engineering Summer Camps To Learn More About What These And Other Engineers Do. Attending These Camps Can Assist Students In Planning Their Coursework For The Remainder Of Their High School Careers.

Aerospace Engineer Advancement

Aerospace Engineers May Eventually Advance To Become Technical Specialists Or To Lead A Team Of Engineers And Technicians. Some May Even Advance To Engineering Management Or Executive Positions Such As Programme Managers.

Salary Of An Aerospace Engineer

Based On 88 Salaries, An Entry-level Aerospace Engineer With Less Than One Year Of Experience Can Expect To Earn An Average Total Compensation (tips, Bonus, And Overtime Pay) Of ?793,302. Based On 163 Salaries, An Early Career Aerospace Engineer With 1-4 Years Of Experience Earns An Average Total Compensation Of ?646,017. Based On 63 Salaries, A Mid-career Aerospace Engineer With 5-9 Years Of Experience Earns An Average Total Compensation Of ?1,003,711. Based On 37 Salaries, An Experienced Aerospace Engineer With 10-19 Years Of Experience Earns An Average Total Compensation Of ?1,375,689 Per Year. Employees In Their Late-career (20 Years And Up) Earn An Average Total Compensation Of ?2,062,608.

Aerospace Engineers Are Typically Full-time Employees. Engineers Who Direct Projects Must Frequently Work Long Hours To Monitor Progress, Ensure That Designs Meet Requirements, Determine How To Measure Aircraft Performance, Ensure That Production Meets Design Standards, And Meet Deadlines.

Aerospace Engineers' Job Prospects

Aerospace Engineer Employment Is Expected To Grow At A Rate Of 8% Over The Next Ten Years, Which Is About The Same As The National Average For All Occupations.

On Average, 4,000 Aerospace Engineer Job Openings Are Expected Each Year Over The Next Decade. Many Of Those Openings Are Expected To Be Created As A Result Of The Need To Replace Workers Who Transfer To Different Occupations Or Leave The Labour Force For Other Reasons, Such As Retirement.

Satellite Launch Costs Have Been Reduced As A Result Of Technological Advancements. As Space Becomes More Accessible, Particularly With Advances In Small Satellites With Greater Commercial Viability, The Demand For Aerospace Engineers Among Businesses And Government Entities Is Expected To Rise. Furthermore, Continued Interest In Drones Will Help To Drive Job Growth For These Engineers.