Friday, May 24

Chandrayaan-3, India’s space mission, is getting closer to the moon

Chandrayaan-3, India’s space mission, is getting closer to the moon. It just did a successful move to change its path around the moon.

This is good news because it means Chandrayaan-3 is moving as planned towards its mission of exploring the moon.

On Sunday, Chandrayaan-3 spacecraft successfully went into orbit around the moon. If everything goes as planned, the mission will land safely near the less-explored south pole of the Moon around August 23 to 24. Since it was launched on July 14, ISRO has been moving the Chandrayaan-3 spacecraft away from Earth in steps.


Chandrayaan-3, India's space mission
Chandrayaan-3, India’s space mission


Here’s the latest news about Chandrayaan-3: The next time they adjust its path around the moon will be on August 9. This comes after they successfully improved its orbit on Sunday night. ISRO shared this information in a tweet.

ISRO has shared a video of the Moon as seen from Chandrayaan-3 spacecraft.

Just a day after Chandrayaan-3 started going around the moon, ISRO shared a video on Sunday. It’s a view of the Moon from Chandrayaan-3. The caption said, “Chandrayaan-3 Mission: The Moon, as viewed by Chandrayaan-3 during Lunar Orbit Insertion.”

The video displayed the Moon in bluish-green color with lots of craters.

They released the video before a significant move that was planned for Sunday night.

Chandrayaan’s Goals:

  1. Successful Landing Demonstration: To show a skilled and gentle landing on the moon’s surface, showcasing the ability to land safely.
  2. Rover Skills Display: To demonstrate how well the Rover can move and navigate on the diverse Moon landscape.
  3. On-Site Scientific Study: To carry out scientific studies directly on the moon’s surface, exploring its terrain for valuable insights.

Chandrayaan-3 holds significant importance for India for several reasons:

  1. Technological Advancement: Chandrayaan-3 demonstrates India’s growing capabilities in space technology and exploration. Developing and executing a successful moon mission showcases India’s expertise in engineering and scientific research.
  2. Scientific Discovery: The mission aims to conduct on-site scientific investigations on the lunar surface. This could provide valuable insights into the moon’s composition, geology, and history, contributing to our understanding of planetary evolution.
  3. International Recognition: A successful mission like Chandrayaan-3 enhances India’s reputation in the global space community. It highlights the country’s commitment to space exploration and can lead to collaboration with other countries on future space projects.
  4. Inspiration and Education: Chandrayaan-3 serves as an inspiration for young minds in India, encouraging them to pursue careers in science, technology, engineering, and mathematics (STEM). It promotes scientific curiosity and innovation among the youth.
  5. Economic Benefits: Advances in space technology often have practical applications beyond space exploration. Technologies developed for Chandrayaan-3 could have spin-off benefits for various industries, contributing to economic growth.
  6. Strategic Importance: Space technology has strategic significance, including applications in communication, navigation, and national security. Chandrayaan-3’s success strengthens India’s capabilities in these areas.
  7. Global Space Cooperation: Successful missions foster international collaboration and partnerships. Chandrayaan-3 could open doors for joint research, sharing of data, and knowledge exchange with other space agencies.
  8. Space Diplomacy: Chandrayaan-3 showcases India’s peaceful and collaborative approach to space exploration, contributing to positive international relations and diplomacy.

In summary, Chandrayaan-3 not only advances India’s space capabilities but also holds the potential to make significant scientific contributions, inspire future generations, and enhance the country’s standing in the global space arena.




As of my last knowledge update in September 2021, there might not be an exact Chandrayaan-3 mission timeline available. However, I can provide a general overview of the typical phases that a lunar mission like Chandrayaan-3 would follow:

  1. Mission Planning and Design: This phase involves designing the spacecraft, instruments, and mission objectives. It includes selecting the launch vehicle and planning the trajectory.
  2. Launch Preparation: The spacecraft is prepared for launch, integrated with the launch vehicle, and undergoes testing to ensure its readiness.
  3. Launch: The spacecraft is launched into space using a suitable launch vehicle.
  4. Trans-Lunar Injection (TLI): Once in Earth orbit, the spacecraft’s engines are fired to put it on a trajectory towards the Moon.
  5. Lunar Orbit Insertion (LOI): The spacecraft performs a critical maneuver to enter the Moon’s orbit.
  6. Orbit Adjustments: A series of orbit adjustments may be conducted to fine-tune the spacecraft’s path around the Moon.
  7. Soft Landing Preparation: If the mission involves a lander, preparations are made for the soft landing on the Moon’s surface.
  8. Landing: The lander separates from the orbiter and conducts a controlled descent to the lunar surface.
  9. Rover Deployment (If Applicable): If there’s a rover, it is deployed onto the lunar surface from the lander.
  10. Surface Operations: The lander and/or rover perform scientific experiments, gather data, and transmit findings back to Earth.
  11. Mission Duration: The duration of surface operations varies and depends on the mission’s objectives and the rover’s endurance.
  12. Mission Completion: The mission concludes when the scientific objectives are met, or the spacecraft’s operations are no longer possible due to technical issues.

It’s important to note that mission timelines can be subject to change due to various factors such as technical challenges, weather conditions, and operational considerations. For the most accurate and up-to-date information on the Chandrayaan-3 mission timeline, I recommend checking official sources from ISRO or reputable news outlets.


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