Chandrayaan-3
Chandrayaan-3

India launches spacecraft for sun study

What To Know

  • Merely one week after the successful landing of Chandrayaan-3 on the lunar surface, India’s space agency has already initiated a mission involving the launch of a rocket carrying Aditya-L1, which marks India’s inaugural mission dedicated to studying the sun.
  • Aditya-L1 is set to embark on a journey spanning 930,000 miles over the course of four months until it reaches the L1 Lagrange Point situated between the sun and our planet.
  • A Lagrange point represents a state of balance between two massive celestial bodies, where objects tend to maintain their positions, thus minimizing the fuel consumption of a spacecraft.
  • Aditya-L1 is slated to remain in orbit, gathering valuable data that scientists hope will provide insights into the enigma of why the sun’s corona exhibits higher temperatures than its surface.

According to an official from the Indian government, Prime Minister Narendra Modi aims to replicate India’s IT success in the field of space. Recent efforts by the Indian Space Research Organisation (ISRO) underscore the country’s genuine commitment to establishing itself as a prominent player in space exploration.

Merely one week after the successful landing of Chandrayaan-3 on the lunar surface, India’s space agency has already initiated a mission involving the launch of a rocket carrying Aditya-L1, which marks India’s inaugural mission dedicated to studying the sun.

Aditya-L1 is set to embark on a journey spanning 930,000 miles over the course of four months until it reaches the L1 Lagrange Point situated between the sun and our planet.

A Lagrange point represents a state of balance between two massive celestial bodies, where objects tend to maintain their positions, thus minimizing the fuel consumption of a spacecraft.

Aditya-L1 is slated to remain in orbit, gathering valuable data that scientists hope will provide insights into the enigma of why the sun’s corona exhibits higher temperatures than its surface.

Furthermore, researchers aspire to leverage this mission to gain insights into the impact of solar radiation and various solar phenomena on communication systems, satellites, and power grids. Enhanced comprehension of these effects will enable space organizations and agencies to enhance the protection of satellites in orbit.

For instance, if scientists can predict coronal mass ejections, they can notify satellite operators in advance, allowing them to safeguard their satellites by shutting down their power systems before the occurrence of such phenomena.

Additionally, the mission’s objectives include shedding light on the behavior of solar wind and how the sun’s activity can exert long-term influences on Earth’s climate.

Sankar Subramanian, the principal scientist behind this mission, expressed, “We have ensured the acquisition of a unique dataset that is currently unavailable through any other mission. This dataset will facilitate our understanding of the sun, its dynamics, and the inner heliosphere—an essential component for contemporary technology and space weather considerations.”

YouTube player

Comments

No comments yet. Why don’t you start the discussion?

Leave a Reply

Your email address will not be published. Required fields are marked *