Chandrayaan-3 MCQ
In this article we are going to discuss a Chandrayaan 3 MCQ. Let us know
The Chandrayaan-3 mission marks a significant milestone in India’s ambitious lunar exploration endeavors. This series of 100 multiple-choice questions delves into various aspects of Chandrayaan-3, the upcoming lunar mission spearheaded by the Indian Space Research Organisation (ISRO).
From its primary objectives, scientific instruments, and anticipated launch details to its potential contributions to lunar science and future human space exploration, these questions provide a comprehensive overview of the mission’s goals and technical intricacies. Chandrayaan-3 represents a continuation of India’s commitment to unraveling the mysteries of the Moon, contributing valuable insights to the global understanding of our celestial neighbor.
Chandrayaan-3 MCQ 1 to 10
1. **What is Chandrayaan-3?**
– A. India’s first satellite
– B. India’s lunar exploration mission
– C. India’s Mars mission
– D. India’s weather monitoring satellite
– **Answer: B**
2. **When was Chandrayaan-3 officially announced?**
– A. 2018
– B. 2019
– C. 2020
– D. 2021
– **Answer: D**
3. **Which organization is responsible for Chandrayaan-3?**
– A. ISRO (Indian Space Research Organisation)
– B. NASA (National Aeronautics and Space Administration)
– C. ESA (European Space Agency)
– D. CNSA (China National Space Administration)
– **Answer: A**
4. **What is the primary objective of Chandrayaan-3?**
– A. Study Mars’ atmosphere
– B. Explore the Moon’s south polar region
– C. Search for extraterrestrial life on Mars
– D. Study asteroids in the asteroid belt
– **Answer: B**
5. **How many phases are planned for Chandrayaan-3 mission?**
– A. 1
– B. 2
– C. 3
– D. 4
– **Answer: A**
6. **What is the expected launch year for Chandrayaan-3?**
– A. 2022
– B. 2023
– C. 2024
– D. 2025
– **Answer: B**
7. **Which type of rocket is expected to launch Chandrayaan-3?**
– A. PSLV (Polar Satellite Launch Vehicle)
– B. GSLV (Geosynchronous Satellite Launch Vehicle)
– C. ISRO Falcon
– D. SpaceX Falcon 9
– **Answer: A**
8. **What is the name of the lander planned for Chandrayaan-3?**
– A. Vikram-2
– B. Pragyan-2
– C. Chandralander
– D. Chandraland-2
– **Answer: A**
9. **Which rover is expected to be part of Chandrayaan-3?**
– A. Curiosity
– B. Perseverance
– C. Pragyan-2
– D. Opportunity
– **Answer: C**
10. **What is the primary scientific instrument onboard the Chandrayaan-3 orbiter?**
– A. Thermal Imaging Spectrometer
– B. Synthetic Aperture Radar
– C. Mass Spectrometer
– D. Moon Impact Probe
– **Answer: A**
Chandrayaan-3 MCQ 11 To 20
11. **Which country is collaborating with India on the Chandrayaan-3 mission?**
– A. USA
– B. Russia
– C. China
– D. France
– **Answer: A**
12. **What is the expected duration of Chandrayaan-3 mission?**
– A. 1 year
– B. 2 years
– C. 5 years
– D. 10 years
– **Answer: B**
13. **Which moon phase is ideal for the launch of lunar missions like Chandrayaan-3?**
– A. New Moon
– B. Full Moon
– C. First Quarter Moon
– D. Last Quarter Moon
– **Answer: A**
14. **What is the purpose of the rover Pragyan-2 on Chandrayaan-3?**
– A. Study lunar rocks and soil
– B. Search for signs of water ice
– C. Measure lunar seismic activity
– D. Conduct atmospheric studies
– **Answer: A**
15. **Which of the following is NOT a component of Chandrayaan-3?**
– A. Orbiter
– B. Lander
– C. Rover
– D. Flyby Probe
– **Answer: D**
16. **What is the expected landing site for Chandrayaan-3?**
– A. Mare Tranquillitatis
– B. Shackleton Crater
– C. Tycho Crater
– D. Aristarchus Plateau
– **Answer: B**
17. **How does Chandrayaan-3 differ from its predecessor, Chandrayaan-2?**
– A. It has a different launch vehicle
– B. It focuses on studying the Moon’s north polar region
– C. It does not have a rover
– D. It has an additional orbiter
– **Answer: C**
18. **What is the primary source of power for the Chandrayaan-3 lander and rover?**
– A. Solar panels
– B. Nuclear reactor
– C. Fuel cells
– D. Radioisotope thermoelectric generator (RTG)
– **Answer: A**
19. **Which Indian state is home to the Satish Dhawan Space Centre, the likely launch site for Chandrayaan-3?**
– A. Karnataka
– B. Tamil Nadu
– C. Andhra Pradesh
– D. Kerala
– **Answer: B**
20. **What is the Chandrayaan-3 mission’s significance in lunar exploration?**
– A. It aims to establish a human settlement on the Moon
– B. It focuses on studying the Moon’s magnetic field
– C. It is a precursor to future crewed lunar missions
– D. It aims to search for extraterrestrial life on the Moon
– **Answer: C**
Chandrayaan-3 MCQ 21 To 30
21. **Which country successfully landed a rover on the Moon before India’s Chandrayaan-2 mission?**
– A. USA
– B. China
– C. Russia
– D. Japan
– **Answer: B**
22. **What is the expected communication frequency for Chandrayaan-3 with Earth?**
– A. UHF (Ultra High Frequency)
– B. VHF (Very High Frequency)
– C. S-band
– D. X-band
– **Answer: D**
23. **What is the expected payload capacity of the Chandrayaan-3 orbiter?**
– A. 500 kg
– B. 1000 kg
– C. 1500 kg
– D. 2000 kg
– **Answer: B**
24. **Which spacecraft served as a precursor to Chandrayaan-3 and paved the way for India’s lunar exploration missions?**
– A. Chandrayaan-1
– B. Mangalyaan
– C. Astrosat
– D. INSAT-3DR
– **Answer: A**
25. **What is the Chandrayaan-3
mission’s primary scientific goal related to the Moon’s geology?**
– A. Study lunar volcanoes
– B. Investigate lunar craters
– C. Analyze lunar regolith
– D. Explore lunar caves
– **Answer: C**
26. **Which type of instruments will the Chandrayaan-3 orbiter carry for remote sensing?**
– A. Optical instruments
– B. Radio instruments
– C. Particle detectors
– D. Magnetic sensors
– **Answer: A**
27. **What is the expected lifespan of the Chandrayaan-3 rover on the lunar surface?**
– A. 1 day
– B. 1 week
– C. 1 month
– D. 6 months
– **Answer: D**
28. **Which international space agency collaborated with ISRO on Chandrayaan-2 and may continue collaboration on Chandrayaan-3?**
– A. NASA
– B. ESA
– C. Roscosmos
– D. CNSA
– **Answer: A**
29. **What is the Chandrayaan-3 mission’s contribution to global lunar science?**
– A. It focuses on studying the Moon’s atmosphere
– B. It aims to discover new moon minerals
– C. It provides data for international lunar research
– D. It studies the Moon’s gravitational field
– **Answer: C**
30. **Which Chandrayaan mission aimed to discover water molecules on the Moon, contributing to future lunar exploration plans?**
– A. Chandrayaan-1
– B. Chandrayaan-2
– C. Chandrayaan-3
– D. Chandrayaan-4
– **Answer: A**
Chandrayaan-3 MCQ 31 To 40
31. **What is the primary scientific instrument onboard the Chandrayaan-3 rover for analyzing lunar soil?**
– A. X-ray spectrometer
– B. Alpha Particle X-ray Spectrometer (APXS)
– C. Mass spectrometer
– D. Infrared spectrometer
– **Answer: B**
32. **What role does the Chandrayaan-3 orbiter play in the mission?**
– A. It serves as a communication relay between Earth and the rover
– B. It conducts experiments on the Moon’s surface
– C. It provides a high-resolution mapping of the lunar surface
– D. It collects lunar samples for return to Earth
– **Answer: C**
33. **Which Indian state is responsible for the development of the Chandrayaan-3 rover?**
– A. Maharashtra
– B. Karnataka
– C. Telangana
– D. Gujarat
– **Answer: A**
34. **What technology is likely to be used for the propulsion system of the Chandrayaan-3 lander?**
– A. Liquid propulsion
– B. Ion propulsion
– C. Solid propulsion
– D. Nuclear propulsion
– **Answer: A**
35. **What is the expected altitude of the Chandrayaan-3 orbiter above the lunar surface?**
– A. 100 km
– B. 200 km
– C. 300 km
– D. 400 km
– **Answer: B**
36. **Which Indian spaceport is the secondary launch site considered for Chandrayaan-3?**
– A. Sriharikota
– B. Thumba
– C. Balasore
– D. Kulasekarapattinam
– **Answer: D**
37. **What is the primary objective of the Chandrayaan-3 rover’s mobility on the lunar surface?**
– A. Collecting lunar rock samples
– B. Studying lunar seismic activity
– C. Investigating the Moon’s magnetic field
– D. Analyzing the distribution of lunar minerals
– **Answer: A**
38. **Which part of the Chandrayaan-3 mission is responsible for collecting and analyzing lunar regolith?**
– A. Orbiter
– B. Lander
– C. Rover
– D. Flyby Probe
– **Answer: C**
39. **What is the Chandrayaan-3 mission’s primary focus regarding lunar water resources?**
– A. Mapping water distribution on the Moon
– B. Extracting water for fuel production
– C. Studying the Moon’s water-based atmosphere
– D. Investigating lunar ice caves
– **Answer: A**
40. **Which international space agency collaborated with ISRO on the development of the Chandrayaan-3 lander?**
– A. Roscosmos
– B. NASA
– C. ESA
– D. CNSA
– **Answer: B**
Chandrayaan-3 MCQ 41 To 50
41. **What is the Chandrayaan-3 mission’s contribution to understanding the Moon’s evolutionary history?**
– A. Studying lunar volcanism
– B. Analyzing lunar impact craters
– C. Investigating the Moon’s magnetic field
– D. Dating lunar rock formations
– **Answer: B**
42. **What is the expected time delay for communication signals between Chandrayaan-3 and Earth?**
– A. 1 second
– B. 5 seconds
– C. 10 seconds
– D. 15 seconds
– **Answer: C**
43. **Which type of terrain is the Chandrayaan-3 rover designed to navigate on the lunar surface?**
– A. Mountainous regions
– B. Mare (basaltic plains)
– C. Lunar highlands
– D. Polar regions
– **Answer: B**
44. **What is the Chandrayaan-3 mission’s approach to understanding lunar seismic activity?**
– A. Deploying seismometers on the lunar surface
– B. Studying impact craters for seismic signatures
– C. Analyzing moonquakes remotely from the orbiter
– D. Utilizing ground-penetrating radar for seismic mapping
– **Answer: C**
45. **Which factor influences the choice of the lunar south polar region as the landing site for Chandrayaan-3?**
– A. Presence of permanent sunlight
– B. Proximity to lunar equator
– C. Possibility of water ice deposits
– D. Accessibility for future human missions
– **Answer: C**
46. **What is the expected data transmission rate from the Chandrayaan-3 rover to the orbiter?**
– A. 1 Mbps (Megabits per second)
– B. 10 Mbps
– C. 100 Mbps
– D. 1 Gbps (Gigabit per second)
– **Answer: D**
47. **Which component of the Chandrayaan-3 mission is responsible for studying the Moon’s exosphere and surface composition?**
– A. Lander
– B. Rover
– C. Orbiter
– D. Flyby Probe
– **Answer: C**
48. **What is the primary purpose of the Chandrayaan-3 mission’s lunar seismic studies?**
– A. Understanding the Moon’s internal structure
– B. Identifying underground caverns on the Moon
– C. Detecting signs of extraterrestrial life
– D. Analyzing the Moon’s gravitational anomalies
– **Answer: A**
49. **How does Chandrayaan-3 contribute to global collaboration in lunar exploration?**
– A. By sharing real-time data with other space agencies
– B. By providing open access to its scientific findings
– C. By collaborating on future crewed lunar missions
– D. By participating in international moon conferences
– **Answer: B**
50. **What is the Chandrayaan-3 mission’s potential impact on future human space exploration?**
– A. Establishing a permanent human presence on the Moon
– B. Identifying sites for future lunar colonies
– C. Providing valuable data for safe lunar landings
– D. Initiating plans for Mars exploration
– **Answer: C**
Chandrayaan-3 MCQ 51 To 60
51. **What is the Chandrayaan-3 mission’s primary objective related to the Moon’s geophysics?**
– A. Studying lunar magnetism
– B. Investigating lunar tectonics
– C. Analyzing lunar seismic activity
– D. Mapping lunar gravitational anomalies
– **Answer: D**
52. **Which specific type of lunar rocks is the Chandrayaan-3 rover equipped to analyze?**
– A. Basalt
– B. Anorthosite
– C. Breccia
– D. Regolith
– **Answer: C**
53. **What technology is expected to be used for the Chandrayaan-3 orbiter’s imaging system?**
– A. Lidar
– B. Synthetic Aperture Radar (SAR)
– C. Multispectral imaging
– D. Infrared spectroscopy
– **Answer: C**
54. **What is the expected accuracy of the Chandrayaan-3 orbiter’s high-resolution mapping of the lunar surface?**
– A. 1 meter
– B. 5 meters
– C. 10 meters
– D. 20 meters
– **Answer: A**
55. **How does Chandrayaan-3 contribute to the understanding of the Moon’s thermal environment?**
– A. Studying lunar volcanoes
– B. Measuring lunar surface temperatures
– C. Analyzing the Moon’s exosphere
– D. Investigating lunar magnetic anomalies
– **Answer: B**
56. **What is the Chandrayaan-3 mission’s approach to studying the Moon’s magnetic field?**
– A. Deploying magnetometers on the lunar surface
– B. Analyzing magnetic signatures in lunar rocks
– C. Mapping magnetic anomalies from the orbiter
– D. Studying lunar auroras
– **Answer: C**
57. **Which region of the lunar south pole is of particular interest for Chandrayaan-3’s exploration?**
– A. Malapert Mountain
– B. Shackleton Crater
– C. Aitken Basin
– D. Clavius Crater
– **Answer: B**
58. **What is the Chandrayaan-3 mission’s contribution to understanding the Moon’s exosphere?**
– A. Studying lunar dust storms
– B. Analyzing lunar atmospheric composition
– C. Investigating lunar seismic activity
– D. Mapping water distribution on the Moon
– **Answer: B**
59. **How does Chandrayaan-3’s scientific payload contribute to the study of lunar minerals?**
– A. By conducting X-ray spectroscopy
– B. By analyzing lunar topography
– C. By studying lunar magnetic anomalies
– D. By mapping thermal emissions
– **Answer: A**
60. **Which space agency has previously launched a mission to the lunar south pole?**
– A. NASA
– B. ESA
– C. CNSA
– D. Roscosmos
– **Answer: C**
Chandrayaan-3 MCQ 61 To 70
61. **What is the expected duration of communication blackout during Chandrayaan-3’s descent to the lunar surface?**
– A. 30 seconds
– B. 1 minute
– C. 2 minutes
– D. 5 minutes
– **Answer: C**
62. **How does Chandrayaan-3 contribute to global efforts in understanding the Moon’s potential as a resource for future space exploration?**
– A. By mapping lunar ice deposits
– B. By studying lunar magnetic fields
– C. By analyzing lunar dust composition
– D. By identifying suitable locations for lunar bases
– **Answer: A**
63. **What is the expected lifespan of the Chandrayaan-3 orbiter’s scientific instruments?**
– A. 1 year
– B. 2 years
– C. 5 years
– D. 10 years
– **Answer: C**
64. **How does the Chandrayaan-3 rover navigate on the lunar surface?**
– A. Using GPS technology
– B. Autonomous navigation
– C. Remote control from Earth
– D. Following predefined tracks
– **Answer: B**
65. **Which Chandrayaan mission made the historic discovery of water molecules on the Moon’s surface?**
– A. Chandrayaan-1
– B. Chandrayaan-2
– C. Chandrayaan-3
– D. Chandrayaan-4
– **Answer: A**
66. **What is the primary objective of Chandrayaan-3’s study of lunar regolith?**
– A. Analyzing mineral composition
– B. Measuring surface temperatures
– C. Investigating seismic activity
– D. Mapping magnetic anomalies
– **Answer: A**
67. **What is the expected altitude of the Chandrayaan-3 orbiter during its mission?**
– A. 100 km
– B. 200 km
– C. 300 km
– D. 400 km
– **Answer: C**
68. **Which technology is likely to be used for the Chandrayaan-3 rover’s drilling mechanism?**
– A. Laser ablation
– B. Percussive drilling
– C. Core sampling
– D. Sonic drilling
– **Answer: B**
69. **What is the significance of studying lunar seismic activity for future human missions?**
– A. Identifying suitable landing sites
– B. Understanding the Moon’s interior structure
– C. Mapping lunar magnetic fields
– D. Analyzing lunar dust properties
– **Answer: B**
70. **How does the Chandrayaan-3 mission contribute to international efforts in lunar resource utilization?**
– A. By extracting lunar water for fuel production
– B. By establishing lunar colonies
– C. By mapping potential sites for lunar bases
– D. By studying lunar meteorites
– **Answer: A**
Chandrayaan-3 MCQ 71 To 80
71. **What type of propulsion system is expected to be used for the Chandrayaan-3 orbiter’s maneuvers in lunar orbit?**
– A. Electric propulsion
– B. Chemical propulsion
– C. Ion propulsion
– D. Nuclear propulsion
– **Answer: A**
72. **How does Chandrayaan-3 contribute to our understanding of the Moon’s history of impact events?**
– A. Studying lunar magnetic fields
– B. Analyzing lunar seismic activity
– C. Investigating lunar impact craters
– D. Mapping lunar volcanic features
– **Answer: C**
73. **Which type of lunar terrain poses challenges for the Chandrayaan-3 rover’s mobility?**
– A. Basaltic plains
– B. Mountainous regions
– C. Polar regions
– D. Lunar highlands
– **Answer: B**
74. **What is the Chandrayaan-3 mission’s approach to studying lunar dust and its potential effects on equipment?**
– A. Deploying dust collection devices on the rover
– B. Analyzing dust remotely from the orbiter
– C. Investigating dust storms on the Moon
– D. Studying the magnetic properties of lunar dust
– **Answer: A**
75. **Which celestial body has served as a crucial waypoint for Chandrayaan missions during their journey to the Moon?**
– A. Mars
– B. Venus
– C. Jupiter
– D. Earth
– **Answer: D**
76. **How does Chandrayaan-3 contribute to the understanding of the Moon’s surface temperature variations?**
– A. Analyzing thermal emissions remotely
– B. Studying temperature changes during lunar day and night
– C. Measuring temperatures at different depths in lunar soil
– D. Investigating the influence of solar radiation on surface temperatures
– **Answer: B**
77. **What technology is likely to be used for the Chandrayaan-3 orbiter’s communication system with Earth?**
– A. Radio waves
– B. Laser communication
– C. Microwave communication
– D. Satellite phone technology
– **Answer: C**
78. **What is the Chandrayaan-3 mission’s approach to studying the Moon’s subsurface structure?**
– A. Deploying ground-penetrating radar on the rover
– B. Analyzing seismic waves from lunar quakes
– C. Conducting core drilling on the lunar surface
– D. Utilizing a flyby probe for subsurface exploration
– **Answer: B**
79. **Which specific type of minerals on the Moon is the Chandrayaan-3 mission designed to identify?**
– A. Silicates
– B. Oxides
– C. Sulfides
– D. Carbonates
– **Answer: A**
80. **How does Chandrayaan-3 contribute to the understanding of the Moon’s interaction with the solar wind?**
– A. Studying lunar magnetic fields
– B. Analyzing lunar seismic activity
– C. Investigating lunar exospheric composition
– D. Mapping lunar regolith distribution
– **Answer: C**
Chandrayaan-3 MCQ 81 To 90
81. **What is the Chandrayaan-3 rover’s expected range of travel on the lunar surface?**
– A. 1 kilometer
– B. 5 kilometers
– C. 10 kilometers
– D. 20 kilometers
– **Answer: B**
82. **How does the Chandrayaan-3 mission contribute to space exploration beyond the Moon?**
– A. By studying Mars’ atmosphere
– B. By investigating asteroids in the asteroid belt
– C. By mapping the surface of Venus
– D. By conducting interplanetary space observations
– **Answer: D**
83. **Which Chandrayaan mission focused on high-resolution mapping of the Moon’s mineral distribution?**
– A. Chandrayaan-1
– B. Chandrayaan-2
– C. Chandrayaan-3
– D. Chandrayaan-4
– **Answer: A**
84. **What is the expected duration of the Chandrayaan-3 orbiter’s mission around the Moon?**
– A. 1 year
– B. 2 years
– C. 5 years
– D. 10 years
– **Answer: C**
85. **How does Chandrayaan-3’s study of lunar seismic activity contribute to our understanding of Earth’s geological processes?**
– A. By comparing lunar and terrestrial seismic data
– B. By studying the effects of tides on the Moon
– C. By analyzing the Moon’s magnetic field
– D. By mapping lunar impact craters
– **Answer: A**
86. **Which region of the lunar south pole is known for its potential water ice deposits?**
– A. Mare Serenitatis
– B. Aitken Basin
– C. Shackleton Crater
– D. Clavius Crater
– **Answer: C**
87. **How does the Chandrayaan-3 mission contribute to our understanding of the Moon’s volcanic history?**
– A. By analyzing lunar seismic activity
– B. By studying lunar magnetic fields
– C. By mapping the distribution of lunar volcanoes
– D. By analyzing lunar regolith composition
– **Answer: C**
88. **What is the Chandrayaan-3 orbiter’s role during the descent and landing of the lander and rover?**
– A. It provides real-time navigation assistance
– B. It serves as a communication relay
– C. It captures high-resolution images of the descent
– D. It deploys a parachute for the lander’s descent
– **Answer: B**
89. **How does Chandrayaan-3’s study of lunar dust contribute to future lunar habitat planning?**
– A. By developing dust mitigation technologies
– B. By analyzing lunar dust for potential resources
– C. By studying the effects of dust storms on equipment
– D. By mapping areas with minimal lunar dust
– **Answer: A**
90. **Which international space agency has expressed interest in collaborating on future lunar missions with ISRO, including Chandrayaan-3?**
– A. JAXA (Japan Aerospace Exploration Agency)
– B. Roscosmos
– C. CNSA (China National Space Administration)
– D. ESA (European Space Agency)
– **Answer: A**
Chandrayaan-3 MCQ 91 To 100
91. **What is the primary objective of Chandrayaan-3’s study of lunar caves and lava tubes?**
– A. Mapping potential landing sites for future missions
– B. Investigating the Moon’s subsurface for resources
– C. Studying the effects of solar radiation on the Moon
– D. Analyzing the Moon’s tectonic activity
– **Answer: B**
92. **How does the Chandrayaan-3 rover’s capability to analyze lunar regolith contribute to lunar resource utilization?**
– A. By identifying suitable locations for lunar bases
– B. By extracting water ice for fuel production
– C. By mapping areas rich in precious metals
– D. By studying the potential for lunar agriculture
– **Answer: C**
93. **Which Chandrayaan mission carried a Moon Impact Probe (MIP) that was released to impact the lunar surface?**
– A. Chandrayaan-1
– B. Chandrayaan-2
– C. Chandrayaan-3
– D. Chandrayaan-4
– **Answer: A**
94. **What is the Chandrayaan-3 mission’s contribution to understanding the Moon’s exospheric composition?**
– A. Studying lunar magnetic fields
– B. Analyzing lunar seismic activity
– C. Investigating lunar dust properties
– D. Mapping the distribution of lunar gases
– **Answer: D**
95. **How does Chandrayaan-3’s study of the Moon’s subsurface contribute to understanding its potential for human settlement?**
– A. By mapping areas with stable lunar temperatures
– B. By identifying underground caverns for habitats
– C. By studying the effects of lunar dust on equipment
– D. By analyzing the Moon’s gravitational anomalies
– **Answer: B**
96. **What is the expected altitude of the Chandrayaan-3 orbiter’s orbit during its mission?**
– A. 100 km
– B. 200 km
– C. 300 km
– D. 400 km
– **Answer: C**
97. **Which scientific instrument on the Chandrayaan-3 orbiter is designed to study the Moon’s exosphere and ionosphere?**
– A. X-ray spectrometer
– B. Ultraviolet spectrometer
– C. Infrared spectrometer
– D. Laser altimeter
– **Answer: B**
98. **How does Chandrayaan-3 contribute to our understanding of the Moon’s surface topography and potential landing hazards?**
– A. By deploying surface probes
– B. By analyzing high-resolution images from the orbiter
– C. By studying lunar seismic activity
– D. By mapping the distribution of lunar rocks
– **Answer: B**
99. **What is the expected resolution of the Chandrayaan-3 orbiter’s high-resolution camera?**
– A. 1 meter
– B. 5 meters
– C. 10 meters
– D. 20 meters
– **Answer: A**
100. **How does the Chandrayaan-3 mission contribute to our understanding of the Moon’s potential for supporting future human activities?**
– A. By identifying sites with high concentrations of lunar water ice
– B. By analyzing the Moon’s magnetic field
– C. By studying lunar dust properties
– D. By mapping areas with stable lunar temperatures
– **Answer: A**
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