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).
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| Chandrayaan-3 MCQ- Free Set GK |
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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