Buying celestial property on the moon is a possibility, but you need to know a few things before you make your purchase. For example, the legality of buying celestial property on the moon, how much it would cost to build your own lunar outpost, and the composition of lunar soil.
Cost of building a lunar outpost
Several studies have tried to estimate the cost of building a lunar outpost. However, most projects never made it past the drawing board. The costs ranged from $45-85 billion.
NASA performed a conservative budget analysis. The study estimated that the cost of the first manned lunar landing would be similar to the Apollo program’s cost in FY 1999 dollars.
The first manned lunar landing would also include $700M – $1000M in Shuttle-C launch costs. Compared to a 1990 proposal, the cost of the first manned lunar outpost is cheaper.
The plan for a lunar outpost was developed before the discovery of water ice in the polar crater. A lunar outpost would serve as a testbed for Mars expeditions and a base for critical research on the Moon.
Legality of buying celestial property on the moon
Buying celestial Build property on moon may sound like a joke but it has become reality in the past few years. A number of nations hope to build outposts on the moon in the coming decades, while the European Space Agency (ESA) plans to build an international village on the moon by 2020 and 2030.
Some space enthusiasts believe that a loophole in the legal code allows for the purchase of celestial land. They point to cases of salvage companies claiming undersea wrecks as property.
However, there is no law that requires any given country to accept ownership of celestial objects. In fact, the legality of buying celestial property on the moon may be a moot point.
The Outer Space Treaty of 1967 is the first international legal document that covers space exploration. The treaty was initiated by the US, Soviet Union, and Britain. It prohibits harmful contamination of celestial bodies, and states that space belongs to the international community. It also declares that extraterrestrial scientific discoveries belong to all mankind.
Composition of lunar soil
Having a good understanding of the composition of lunar soil for building property on the Moon is important for future human habitation of the Moon. As a result, the European Astronaut Centre is building the European Lunar Exploration Laboratory. This laboratory will be located near the German Aerospace Centre in Cologne, and will be equipped with a 660 m2 testbed area.
One method to measure thermal conductivity of regolith is to apply infrared instruments to the surface. This method can provide accurate measurements of surface thermal emission. However, to interpret surface thermal emission, it is necessary to develop a detailed thermal properties model. This model requires a detailed account of the physical particle properties of the material.
Various characterisation methods are used to measure the particle size distribution of regolith. This is determined by the compaction of the materials and the moisture content.
Developing a program to mine Helium-3 for building property on the Moon would be an exciting endeavor. Not only would it allow us to develop nuclear fusion reactors that produce enormous amounts of electrical power, it could also help us free ourselves from our dependence on fossil fuels.
It is estimated that the concentration of Helium-3 on the Moon is at least 13 parts per billion by weight. This is 100 times more abundant than on Earth. In the past, researchers have found many forms of helium-3 in lunar samples.
The thermal release mechanism of helium-3 in lunar ilmenite is important for in-situ resource utilization on the Moon. This is because helium-3 atoms are implanted into the mineral’s lattice interstitials and lattice vacancies. These atoms then fuse at lower temperatures than ordinary hydrogen atoms.