The Indian Space Research Organisation is a world-class space agency noted for its cost-effective projects and cutting-edge technologies. ISRO has launched multiple missions successfully by putting its best foot forward. ‘Climbing to the top requires strength, whether it is to the peak of Mount Everest or to the pinnacle of your career,’ says Dr. A.P.J Abdul Kalam, one of the greatest scientists of all time. It offers a diverse set of challenging opportunities, ranging from the development of breakthrough technologies to the advanced infrastructure required for space research and beyond. Students are frequently perplexed as to how we might join ISRO.
What exactly is a Space Scientist?
Simply described, there are two categories of space scientists: physicists and astronomers. Physicists work with theoretical notions and laboratory equipment in the field, whereas astronomers conduct research in the universe relating to galaxies, stars, and so on. Choosing any of the areas described above, on the other hand, leads to a career in space science. The study or exploration of the universe is known as space science.
List of Courses to get Jobs in ISRO
First and foremost, you must have taken a scientific, maths or physics subject in high school and be conversant with the fundamentals of each (a 75% or higher is preferred).
If you wish to pursue your career in ISRO and also dream of the opportunity to be a part for the launch of Chandrayaan in future it is not mandatory that you have to pursue your education in space science itself. Here is the list of courses you can go for to be a part of ISRO other than Space science.
Chemical Engineering
Chemical engineering is a profession that has an impact on many sectors of technology. Chemical engineers, in general, conceptualise and design methods for manufacturing, changing, and delivering materials, commencing with tests in the laboratory and advancing to full-scale manufacturing.
Another area where a chemical engineer can find use is in the sufrace treatment of metals, nano materials, and various chemical coatings. Chemical engineering applications are required for research on various types of batteries that can withstand the space environment and deliver the best energy density.
Electrical Engineering
It is the branch of engineering that deals with electrical technology. Electrical engineers work on a wide variety of components, devices, and systems, ranging from small microchips to massive power plant turbines.They also test and supervise the production of electrical equipment. Electrical engineering is a science that deals with power electronics and develops efficient and dependable electronic systems. It is primarily concerned with physics, mechanics, optics, and related mathematics.
Mechanical Engineering
The mechanical engineer must be able to assess the forces and thermal conditions that a product, its parts, or its subsystems will face; design them for performance, beauty, and longevity; and establish the optimum manufacturing strategy that will guarantee failure-free operation.
Mechanical engineers are important in many industries, including automotive, aircraft, biotechnology, computers, electronics, microelectromechanical networks, conversion of electricity, automated and robotic systems, and production.
Data Scientist
Data scientists are frequently expected to generate their own questions about the data, although data analysts may assist teams who already have goals in mind. A data scientist may also devote more time to constructing models, applying machine learning, or combining complex programming to locate and analyse data.The role of a data scientist combines computational science, research, and arithmetic to collect and organise data from various data sources, transform conclusions into actionable plans, and convey findings to their organisations. Successful data scientists must be proficient communicators, supervisors, team players, and logical thinkers.
Aerospace Engineering
The principal field of engineering involved with the design, development, testing, and manufacture of aeroplanes, spacecraft, and related systems and equipment is aerospace engineering. Traditionally, the area has been concerned with difficulties relating to atmospheric and space flight, with two primary and overlapping branches: aeronautical engineering and astronautical engineering.
Software Engineering
Software engineering is a discipline of engineering concerned with the growth of software products by the use of well-defined scientific concepts, methodologies, and procedures. Software engineering produces an effective and dependable software product.The process of designing, developing, testing, and maintaining software is known as software engineering. It is a methodical and disciplined approach to software development with the goal of producing high-quality, dependable, and maintainable software. Software engineering encompasses a wide range of techniques, tools, and approaches, such as requirements analysis, design, testing, and maintenance.
Avionics Engineering
Avionics engineering is the design of electronic systems utilised in the aircraft sector. This name is a combination of the terms “aviation” and “electronics.” Avionics are required for all aeronautical vehicles, including aircraft, satellites, and spacecraft. Avionic systems use a variety of functions, including navigation, communications, displays, and others. Avionics engineers work directly with current systems related with internal electronics for aerospace vehicles to increase flight safety and fuel efficiency; yet, the internal systems employed in avionics engineering technologies can be complex.
Optical Engineering
Optical engineering is a subset of physics and engineering. It is the practise of determining how light can be employed to make things using optics and engineering concepts.Optical Engineering courses teach students on the use of optics in the development of technologies and products. The Optical Engineering courses include a wide range of topics, including physical phenomena and technology related to the creation, transmission, modification, detection, and application of light.