Why in the News?
In a new study, researchers from the Physical Research Laboratory (PRL) in Ahmedabad have found that the area of the moon where water ice can be easily accessed is greater than expected.
What’s in Today’s Article?
- Chandrayaan-3 (Introduction, Scientific Contributions, Presence of Water, Significance, Implications, etc.)
Introduction
- India’s Chandrayaan-3 mission has made a ground-breaking discovery regarding the presence of water-ice on the Moon.
- Previously believed to exist primarily in the Moon’s polar craters, new research based on data from the Chandra’s Surface Thermophysical Experiment (ChaSTE) suggests that water-ice might also be present in high-latitude regions beyond the poles.
- This revelation has major implications for future lunar exploration, as it could make water more accessible for human missions and space-based activities.
Chandrayaan-3 and Its Scientific Contributions
- Role of ChaSTE in Lunar Research
- The ChaSTE instrument, onboard the Vikram lander, was designed to measure surface and sub-surface temperatures of the Moon.
- It provided the first-ever in-situ temperature readings from high-latitude lunar regions.
- The findings revealed that even slight changes in altitude and slope orientation could result in significant temperature variations, creating potential environments similar to polar regions where water-ice can accumulate.
- Unexpected Temperature Variations
- High Surface Temperatures: The ChaSTE data showed that sun-facing slopes recorded temperatures as high as 82°C (355 K) at the Shiv Shakti point, where the Vikram lander had touched down.
- Cold Shaded Areas: In contrast, just a meter away on a flat surface, the temperature dropped to 59°C (332 K). The temperature varied drastically based on the inclination and exposure to sunlight.
- Extreme Night-time Cooling: At night, temperatures plummeted to -181°C, confirming the Moon’s vast thermal differences.
Potential Presence of Water-Ice Beyond the Poles
- Key Observations from the Study
- Scientists found that slopes tilted more than 14° away from the Sun maintained much lower temperatures, creating an environment where water-ice could migrate and stabilize beneath the surface.
- The study indicates that water-ice may not be confined to polar craters but could also exist in other high-latitude regions, particularly in shadowed areas.
- Significance of this Discovery
- Greater Accessibility for Space Missions
- Polar regions pose technical challenges for landings due to rugged terrain and constant shadow.
- High-latitude locations are easier to reach and explore, making water extraction more feasible.
- Supports Long-Term Lunar Habitation
- Water on the Moon is crucial for drinking, sanitation, and growing food for astronauts.
- Water-ice can also be converted into oxygen and hydrogen, providing breathable air and fuel for space travel.
- Commercial and Scientific Potential
- The ability to extract water locally reduces the need to transport it from Earth, making lunar missions more sustainable and cost-effective.
- The findings contribute to a better understanding of the Moon’s evolution and the behaviour of volatile substances in space.
Implications for Future Lunar Exploration
- Chandrayaan-3’s discovery aligns with global lunar exploration efforts, including NASA’s Artemis program, China’s plans for a lunar base, and Russia’s lunar lander missions.
- With more accessible water-ice deposits, India’s future lunar missions can now focus on resource utilization, setting the stage for permanent human presence on the Moon.
Conclusion:
Chandrayaan-3’s findings have significantly expanded our understanding of the Moon’s water distribution.
The revelation that water-ice may exist beyond the poles reshapes lunar exploration strategies and enhances the feasibility of future human settlements on the Moon.
By identifying high-latitude regions with favourable conditions, ISRO’s mission contributes not only to India’s space aspirations but also to the broader global efforts of deep-space colonization and resource utilization.
