The study of aeroplanes and spacecraft is the focus of the four-year undergraduate B. Tech. in Aerospace Engineering curriculum. It is divided into two main branches: Aerospace Engineering deals with spacecraft, while Aeronautical Engineering deals with Aircraft.
Our understanding of the universe has grown considerably as a result of aerospace engineering. This includes everything from sending spacecraft for study of other planets in our solar system to launching satellites to track Earth’s atmosphere and even organising intergalactic journeys. If you are keen on pursuing a career in this field, you need to gain a degree from the right college.
Sandip University is an autonomous educational university guided and governed by the policy, rules and regulations of Maharashtra State and under the regulations of University Grants Commission. This is the first self-financed private university in North Maharashtra. The University offers a four-years undergraduate studies, two-years postgraduate studies, and PhD in aerospace and aeronautical engineering.
The design and development of aeroplanes is the primary focus of aeronautical engineering is a more specialised field that focuses on the design and development of aircraft. The structures, propulsion systems, control systems, and aerodynamics of aircraft are all under the responsibility of aeronautical engineers. They also need to know how airports and other aviation infrastructure are designed.
Aero Engineers are in Great Demand
India’s Commercial airline marketplace, whose size has almost quadrupled since 2019, is expected to rank among the top three in the world by 2041. In the next 20 years, South Asia is expected to receive over 2700 new aircraft, of which 90% are expected to go to India, according to the Boeing commercial Market Outlook 2023.
Need for a Degree in Aero Engineering
A four-year bachelor’s program in aerospace engineering that trains students to create and develop cutting edge technology for aircraft and spacecraft is a good place to start if you want to work in the aerospace industry.
Aerodynamics, wind tunnels and the forces and shapes that enable flight are the main topics of aeronautical engineering. Aerospace engineering now includes embedded safety critical software, control systems, avionics, computational fluid dynamics, structural analysis, propulsion systems, engine thermodynamics, and many other specialisations due to the complexity and pervasiveness of software today.
Students compete to design UAV systems that help advance the careers of those who aspire to be aerospace engineers by encouraging cooperation amongst mechanical, electrical, aerospace, and computer science students.
What is the Prerequisite for B.Tech in Aerospace Engineering?
To get admission in aerospace/aeronautical engineering the minimum qualification you need is passing in class 12th with Physics Chemistry Maths or Physics Chemistry Biology, with an aggregate of 45% or 3-years engineering diploma in any stream.
Choosing a Professional Path
One can select from a variety of career choices in the aerospace industry to take advantage of the flourishing sector and leave a lasting impression. The range of options is further increased by aerospace specific business and project management opportunities, aviation industry certification programs, and pilot training, which includes certified drone flying courses.
A pilot’s career, CAD based aerospace drawing, computational fluid dynamics analysis, controls and electronics, test, safety and compliance engineering, aviation management and many more opportunities are all available in the aircraft business.
Most aero engineers work in product and component manufacture, but some specialise in avionics and controls or research and development. The chance to launch a business and create drones and other automated aircraft is growing.
Propeller design, control systems, fluid mechanics, battery management, thermodynamics, safety and design assurances are among the topics of current research. In addition to industrial jobs, there are positions available in civilian enterprises, military organisations, space research centres, and regulatory authorities.
The Competencies Needed to Work as an Aerospace Engineer
Aerospace engineers need to be well versed in aerodynamics and propulsion systems in addition to having a solid background in mathematics and physics. An extra benefit is having knowledge of cutting-edge manufacturing techniques like digital transformations and additive manufacturing.
Aerospace engineers will soon need to utilise computer aided design (CAD) software to create and alter control systems, signal processing, and three-dimensional assembly designs. These computer models support simulated testing of aeroplanes and spacecraft. Systems engineering fundamentals are a specialised ability to acquire since aerospace engineers eventually become systems engineers.
Career Opportunities in Aerospace and Aeronautical Engineering, and Required Skills
The present moment is ideal for students looking for opportunities in Aeronautical/Aerospace engineering, if they have the necessary knowledge and abilities.
The very first heavier than air flight was accomplished by two bicycle technicians who introduced the engineers to the exciting field of aerospace engineering. Today, one of the most difficult and fascinating areas of engineering is aerospace engineering which enables people to create and manage flying systems, launch satellites and create defence technology like missiles, rockets and weaponry. The aircraft industry has developed into a vibrant industry with a wide range of job options, from the elegant flight of air taxis across the sky to the astounding accomplishments of India’s space research.
Government agencies, public and commercial airline services, and the aircraft manufacturing sector and all have a strong demand for aerospace engineers. The triumph of Chandrayaan and our own fighter aircraft, which need a fly by wire control system, signal India’s progress in this area.
With the Indian space research organisation (ISRO) going after advanced space exploration plans and the country’s increasing air travel, aerospace careers are expected to grow significantly. The Indian space tech sector, which has received over USD 198.22 million in government investment presents a lucrative opportunity for private players. The global aerospace engineering market is expected to reach new heights, surpassing USD 312.55 billion by 2030.
Conclusion
Careers in aerospace have a bright future ahead of them because the sector has historically produced high paying jobs and made a substantial contribution to the global economy. The statistics predict that employment of aerospace engineers will increase by 20% between 2021 and 2031. This demand is only going to grow. If you are considering a career in aerospace or aeronautical engineering, you will find excellent opportunities in the future after gaining a globally-recognised degree in this field from Sandip University.