See 1st photos of the moon's south pole by India's Chandrayaan-3 lunar lander

Best Wishes for not only these but continuing images from Vikram lander and Pragyan rover.

When I was working on the Apollo Program in 1969 we were in old video technology. The Lunar Lander had descent and ascent stages. The communications bandwidth was equivalent of 3kHZX6 6 voice telephone line of that time.
That is why you see TV streaks and poor quality Black and white images from 50+ year old technology.
Today Chandrayaan 3 fortunately is using best available space tested cameras and detectors and graphics processor hardware and software.
Hence the quality is very nice.

Going beyond, we expect as usual the scientific experiments value to improve namely spectrometry and other physical samples in-situ analysis.

If my Expert Voice on Space.com [2020 - Space.com article analyzing Chandrayaan-2 and suggestions for Future ISRO missions. https://www.space.com/india-moon-landing-not-a-failure.html] was heard we could also have hop and land capability which could grow to sample return to propulsion or orbiting platforms and or to Lunar Gateways as these mature as part of Artemis Accord. Further It is necessary to send RTG as then suggested 3 yrs ago to keep experiment investment alive for more than a Lunar daylight. from next mission on at least.
Again great start yet we (ISRO) need to receive samples as other 3 nations have done.
Thanks.
Ravi
(Dr. Ravi Sharma, Ph.D. USA)
NASA Apollo Achievement Award
Former MTS NASA HQ MSFEB
ISRO Distinguished Service Awards
Former Scientific Secretary ISRO HQ
Ontolog Board of Trustees
Particle and Space Physics
Senior Enterprise Architect
 
Hi Billslugg! Greetings! and thanks for global sharing wishes :)

I am not sure if electronic components are rated for lunar night temperature extremes. Industrial components can survive harsher than normal earth temperature ranges. But specially lunar nights can go down to 140 deg K, Lunar day is 400 deg K. Earth average is around 300 deg K.

That is why we use thermo-vac chambers and solar simulators to test and space qualify components.

The electronics is needed for transmission to receivers in orbit or antennas on earth and hence based on ALSEP Lunar Module Apollo experience in 1960's I had suggested Radio Isotope Thermal Generator (RTG) in 2020 which hopefully ISRO will also carry on future missions.

I had to help NASA Track the fall of such RTG in Mariana Trench in Pacific due to LEM reentering the atmosphere during Apollo 13 mishap. We 3 scientists were coordinating 60 global tracking observatories during 1968-1972.
Hope this info helps?
Regards,
Thanks.
Ravi
(Dr. Ravi Sharma, Ph.D. USA)
NASA Apollo Achievement Award
Former MTS NASA HQ MSFEB
ISRO Distinguished Service Awards
Former Scientific Secretary ISRO HQ
Ontolog Board of Trustees
Particle and Space Physics
Senior Enterprise Architect
 
Sep 15, 2021
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Hi Billslugg! Greetings! and thanks for global sharing wishes :)

I am not sure if electronic components are rated for lunar night temperature extremes. Industrial components can survive harsher than normal earth temperature ranges. But specially lunar nights can go down to 140 deg K, Lunar day is 400 deg K. Earth average is around 300 deg K.

That is why we use thermo-vac chambers and solar simulators to test and space qualify components.

The electronics is needed for transmission to receivers in orbit or antennas on earth and hence based on ALSEP Lunar Module Apollo experience in 1960's I had suggested Radio Isotope Thermal Generator (RTG) in 2020 which hopefully ISRO will also carry on future missions.

I had to help NASA Track the fall of such RTG in Mariana Trench in Pacific due to LEM reentering the atmosphere during Apollo 13 mishap. We 3 scientists were coordinating 60 global tracking observatories during 1968-1972.
Hope this info helps?
Regards,
Thanks.
Ravi
(Dr. Ravi Sharma, Ph.D. USA)
NASA Apollo Achievement Award
Former MTS NASA HQ MSFEB
ISRO Distinguished Service Awards
Former Scientific Secretary ISRO HQ
Ontolog Board of Trustees
Particle and Space Physics
Senior Enterprise Architect
Why did you suggest using RTGs, knowing the following?

"Radioisotope thermoelectric generators (RTGs) are the power plants of the interplanetary spacecraft. Or at least they have been for going on 50 years now. But they have significant drawbacks, the primary one being that they’re heavy. Even modern-day RTG designs run into the hundreds of kilograms, making them useful for large-scale missions like Perseverance but prohibitively large for any small-scale mission that wants to get to the outer planets. Solar sails aren’t much better, with a combined solar sail and battery system, like the one on Juno, coming in at more than twice the weight of a similarly powered RTG. To solve this problem, a group of engineers from the Aerospace Corporation and the US Department of Energy’s Oak Ridge National Lab came up with a way to take the underlying idea of an RTG and shrink it dramatically to the point where it could not potentially be used for much smaller missions."
 
Sep 7, 2023
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With its Chandrayaan-3 lunar mission, India's space agency, ISRO (Indian Space Research Organisation), has achieved history once more. The lunar lander has accomplished an extraordinary feat by taking and transmitting the first ever pictures of the mysterious and largely unexplored south pole of the moon. This historic occasion not only represents an important turning point in space exploration but also holds enormous promise for future lunar missions and scientific research.

Exploring the South Pole of the Moon: Scientists and space agencies from all over the world have long been very interested in this region. Curiosity has been sparked by its unusual geography, which includes permanently shadowed craters that might contain water ice. Now that Chandrayaan-3 has successfully landed on the Moon's surface, the entire globe has the chance to investigate this mysterious region like never before.

Key Images Highlights:

Cratered Landscape: The Chandrayaan-3 photos show a harsh and craggy landscape covered in numerous impact craters of various sizes. These craters shed important light on the Moon's geological past and interactions with celestial bodies.

Permanent Shadow: The permanently shaded regions within craters are some of the most fascinating features captured in these photographs. Scientists are particularly interested in these places because it is thought that they contain water ice, which is essential for upcoming lunar missions and potential human habitation.

The photographs also provide glimpses of the lunar sunrise and sunset, illuminating the particular lighting conditions on the Moon. In addition to being stunning, these images also aid in the scientific understanding of the Moon's spinning features.

Scientific Potential: Chandrayaan-3's successful mission and image collection have created numerous chances for scientific investigation. Researchers can use the data to examine the Moon's geological history, resource potential, and contribution to our understanding of the history of the solar system as a whole.

Implications for Future Exploration: Chandrayaan-3's lunar lander's initial photographs represent a significant advancement in lunar exploration. They offer useful information for preparing further missions, such as the possibility of building a lunar outpost or more research into the Moon's potential as a stepping stone for more in-depth space exploration.

In conclusion, India's Chandrayaan-3 mission has made history by landing on the Moon and by providing humanity with its first images of the mysterious south pole. These pictures herald the start of a new phase in lunar exploration, igniting interest in science and the desire to colonize planets beyond Earth. Scientists and space organizations from around the world will no doubt find new mysteries hidden in the Moon's craters and shadows as they examine these photographs.
 
Sep 15, 2021
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I'm positive you meant "where it could"
Yes, an obvious mistake at the UniverseToday.com website (in a report titled "India's Rover Rolls Out Onto the Lunar Surface" [August 25]). Thank you for pointing it out. It's such a recent matter that one can be sure that they haven't been able to shrink the hardware yet, and it might take them several years.
 
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It's not that I'm slow but that it's no longer impossible to go online at home. Returning just to tell about the following mistake was an obligation. The passage was found at the said website but not in the report mentioned but in one titled "An Improved Radioisotope Thermoelectric Generator Could Dramatically Reduce The Weight Of Interplanetary Missions" (August 13).

It's also Dr. Ravi Sharma's obligation to come back and explain about his suggestion. We need to know how the ISRO reacted to it.
 
Sep 15, 2021
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It's not that I'm slow but that it's no longer impossible to go online at home. Returning just to tell about the following mistake was an obligation. The passage was found at the said website but not in the report mentioned but in one titled "An Improved Radioisotope Thermoelectric Generator Could Dramatically Reduce The Weight Of Interplanetary Missions" (August 13).

It's also Dr. Ravi Sharma's obligation to come back and explain about his suggestion. We need to know how the ISRO reacted to it.
...I meant "no longer possible". Wasn't there a time when one could do changes to one's comments?