Aerospace Engineer

Aerospace Engineer ,what is Aerospace Engineering, Aerospace Engineering Colleges in India - TheCareerHub
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    RS 50000-80000

Who is Aerospace Engineer?

Do you love aircrafts and spacecrafts? Do you love science and space and are not afraid of heights and big mathematical calculations? Then, aerospace engineering is just the career for you. Life is not rocket science but aerospace engineering definitely is. It is the field of engineering that focuses on the production and development of aircrafts, spacecrafts and everything in between. Aeronautical engineers are the genius behind designing weapon systems, satellites, missiles, aircrafts and spacecrafts. Aerospace engineers may be employed in design and analysis, manufacturing, and even research and development.

Aerospace engineering overlaps with two other branches: aeronautical and astronautical engineering. When addressing the differences between the three branches, where aeronautical engineers majorly deal with flights within the earth’s atmosphere, astronautical engineers cover travel in space and aerospace engineers cover both realms. This Engineering discipline provides students with the necessary skills and knowledge for designing, manufacturing, and maintaining aircraft, spacecraft, weapon systems, and missiles.

Aerospace engineering encompasses core domains such as aerodynamics, aerospace structures, engines, rockets, and missile technologies, spacecraft technologies, navigation guidance and control systems, and avionics, as well as fundamental common courses such as thermal engineering, heat transfer, fluid mechanics, and solid mechanics, among others. (Insert this line here) This engineering branch is regarded as one of the most difficult, as it includes the study of both Aeronautical and Astronautical Engineering (Aircraft and spacecraft). Aerospace engineering is important because it allows for the development of new ideas.

These concepts have an impact on flight on Earth and in space. Because of the diversity of this field, some Aerospace Engineers focus on aircraft on Earth, while others study spacecraft that operate beyond the Earth`s atmosphere. Through design, research, and development, an aerospace engineer improves fuel efficiency, flight safety, analyses new materials, employs advanced technologies, and works to reduce the environmental impact of air travel.

Typical day at work

What does Aerospace Engineer do?

Aerospace engineers work in the aviation field. However, they work on the ground level as engineers in making, designing, and transforming aircraft for a better experience in the aerospace industry.

Aerospace engineers work on mathematical-based models and various methods related to them in the field of computer analytics to create, formulate, design, develop, modify, advance, and enhancement of aerospace products. These are worked as per the requirements of the companies and the better experience of the customers.

This is a technical-based job that works regarding managing not only the products but also handling the technical reports and management and documenting everything that has been worked upon.

Typically, an aerospace engineer job description comprises of the following tasks:

  • Consider proposals for projects to determine if they are technically feasible
  • Evaluate if the proposed projects are financially feasible and safe
  • Direct the design, manufacture, and testing of aircraft and aerospace products and coordinate with peers accordingly
  • Establish various parameters and acceptance criteria for design methods, quality standards, sustainment after delivery, and completion and delivery dates
  • Ensure that the products meet not only the engineering principles and customer requirements, but also the environmental regulations
  • Conduct Inspections to identify malfunctioning or damaged products, their sources of problems and possible solutions
Abilities & aptitude needed

What are the skills, abilities & aptitude needed to become Aerospace Engineer?

  • Critical thinking entails using logic and reasoning to assess the strengths and weaknesses of various solutions, conclusions, or approaches to problems. 
  • Reading Comprehension is the ability to comprehend written sentences and paragraphs in work-related documents. 
  • Science is the application of scientific principles and methods to the solution of problems.
  • Active listening entails paying close attention to what others are saying, taking the time to understand the points being made, asking questions as needed, and refraining from interrupting at inappropriate times.
  • Writing - Effectively communicating in writing as appropriate for the needs of the audience. 
  • Speaking entails conversing with others in order to effectively convey information.
  • Mathematics is the application of mathematics to the solution of problems.
  • Complex Problem Solving entails identifying complex problems and reviewing relevant information in order to develop, evaluate, and implement solutions. • Operations Analysis entails analysing needs and product specifications in order to create a design.
  • Monitoring entails keeping track of and evaluating your own, other people's, or organisations' performance in order to make improvements or take corrective action.
  • Decision Making and Judgment - Considering the relative costs and benefits of potential actions to select the best one.
  • Understanding the implications of new information for current and future problem-solving and decision-making is an example of active learning.
  • Systems evaluation entails identifying measures or indicators of system performance as well as the actions required to improve or correct performance in relation to the system's goals.
  • Systems analysis is the process of determining how a system should operate and how changes in conditions, operations, and the environment will affect the outcome.
  • Learning Strategies are the methods and procedures for selecting and implementing training/instructional methods and procedures that are appropriate for the situation when learning or teaching new things.
  • Technology Design - Creating or adapting equipment and technology to meet the needs of users. Coordination is the process of adjusting one's actions in relation to the actions of others.
  • Quality Control Analysis entails testing and inspecting products, services, or processes in order to assess their quality or performance.
  • Time Management entails managing one's own time as well as the time of others. Persuasion is the process of persuading others to change their minds or behaviour.
  • Negotiation entails bringing people together and attempting to resolve disagreements. Instructing entails instructing others on how to do something.
  • Social Perceptiveness entails being aware of other people's reactions and comprehending why they react the way they do.
  • Service Orientation entails actively seeking ways to assist others.
  • Monitoring operation entails keeping an eye on gauges, dials, or other indicators to ensure that a machine is operating properly.
  • Personnel Resource Management entails motivating, developing, and directing employees while also identifying the best people for the job.


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Career Outlook

What does the future look like for Aerospace Engineer?

Aerospace engineering has the potential to open a world of opportunities not limited to the space scene. As an aerospace engineer, one can even join the air force or become a flight engineer or aircraft engineers. Though, most aerospace engineers dream of joining NASA. When talking about the employment of aerospace engineers, it is expected to grow slower than the average occupation. However, due to education requirements and an unsaturated job market, there seems to be a demand for aerospace engineers.

Aerospace engineer employment is expected to grow at a rate of 8% between 2020 and 2030, 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.

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