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Chandrayaan-3 : കൗതുകമുണർത്തുന്ന എഞ്ചിനീയറിംഗ് രഹസ്യങ്ങൾ! #isro#chandrayaan3



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Welcome to our video on the engineering disciplines behind Chandrayaan-3, India's remarkable lunar exploration mission! In this video, we'll delve into the diverse fields of engineering that contribute to the success of this ambitious endeavor.

Aerospace Engineering:
Aerospace engineering plays a crucial role in Chandrayaan-3. Engineers in this discipline design and develop the spacecraft itself, including the propulsion systems, structural components, and thermal management systems. They ensure that the spacecraft can withstand the harsh conditions of space and function optimally.

Mechanical Engineering:
Mechanical engineering is essential for Chandrayaan-3 as it involves the design and construction of the intricate mechanical systems within the spacecraft. Engineers in this field work on mechanisms for deploying solar panels, antennas, and scientific instruments, as well as mechanisms for sample collection and analysis on the lunar surface.

Electrical Engineering:
Electrical engineering is instrumental in powering and controlling the spacecraft's complex systems. Engineers in this discipline design electrical circuits, power distribution systems, and communication systems. They ensure reliable electrical connections between various subsystems, as well as the integration of scientific instruments and sensors.

Systems Engineering:
Systems engineering focuses on the integration and coordination of all subsystems in Chandrayaan-3. These engineers work on the overall architecture of the mission, ensuring that all components function together seamlessly. They address system-level challenges and optimize the mission's performance and reliability.

Computer Science and Software Engineering:
Computer scientists and software engineers develop the sophisticated software that controls the spacecraft, manages data collection and analysis, and facilitates communication with mission control. They also design algorithms for navigation, guidance, and control, enabling Chandrayaan-3 to autonomously carry out its mission.

Materials Science and Engineering:
Materials engineers contribute to Chandrayaan-3 by selecting and developing materials that can withstand the extreme conditions of space and the Moon's surface. They work on heat shields, radiation shielding, and protective coatings, ensuring the durability and functionality of the spacecraft and its scientific instruments.

Communication Engineering:
Communication engineers design the communication systems that enable Chandrayaan-3 to establish a reliable link with mission control on Earth. They develop antennas, transceivers, and protocols for data transmission, ensuring seamless and efficient communication throughout the mission.

By combining the expertise of these engineering disciplines, Chandrayaan-3 represents a remarkable feat of human ingenuity and technological advancement. Stay tuned for more exciting updates on this incredible lunar mission!
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