India's planned spaceshot to the Moon is an easy one to ignore -- it's just another country not named the United States ramping up its space program while the only country to actually land and walk on the moon seems increasingly content to keep its feet on terra firma.
"When completed, this mission will put India in the very small group of six countries which have thus far sent space missions to the moon," said Krishnaswamy Kasturirangan, a member of the Indian parliament, reinforcing the narrative that this is about prestige and a place at the scientific table.
And maybe it is. But tucked into the New York Times story today is this nugget:
The Indian mission is scheduled to last two years, prepare a three-dimensional atlas of the moon and prospect the lunar surface for natural resources, including uranium, a coveted fuel for nuclear power plants, according to the Indian Space Research Organization.
The moon as strip mine? It's not that far fetched. A 2004 Popular Mechanics article from former astronaut Harrison Schmitt.
It is not a lack of engineering skill that prevents us from using helium-3 to meet our energy needs, but a lack of the isotope itself. Vast quantities of helium originate in the sun, a small part of which is helium-3, rather than the more common helium-4. Both types of helium are transformed as they travel toward Earth as part of the solar wind. The precious isotope never arrives because Earth's magnetic field pushes it away. Fortunately, the conditions that make helium-3 rare on Earth are absent on the moon, where it has accumulated on the surface and been mixed with the debris layer of dust and rock, or regolith, by constant meteor strikes. And there it waits for the taking.
Hey, didn't we already claim the moon when we stuck a U.S. flag on the surface?
Interesting that the Indians' interest is apparently for nuclear fission (uranium) while the PM article was focused more on nuclear fusion (helium-3). To think that it might behoove both methods by mining the moon is impressive.
Of course, one could point out that there is no wind energy to be gotten from the moon, nor fossil fuels (that we know of!) It's solar energy availability was no better than ours here, last I checked.
But still, the amount of energy to get the resources back here is still immense. That has to be factored into the break-even viability equation.
Those nanotube elevators they keep talking about sure would come in handy in cases like this...
It seems to me that India is demonstrating not only their determination to establish themselves in the lucrative resource business, but their growing military might as well.