Why should we build lunar settlement on the moon

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This article was started with the talk-page on the 4th of October 2012. Now on the 13th of May 2013 the main page of the article should answer the talk page.

Why should we build lunar settlement on the moon?

The goal is to have spacious and comfortable space habitats that house the future's trillions of apeople, plentiful electrical power for earth, large orbital structures that make access to space from Earth practical and affordable for vast numbers of people, transportation that links Earth to the farthest reaches of the Solar System, space probes and observation devices that far exceed the capabilities of Earth bound devices and any space telescopes up to year 2013, and finally space habitats that serve as starships for crews who's descendents in a few centuries will arrive at a nearby star. All of this is possible with the industrialization of outer space. The fastest and easiest way to do it starts with mining the moon.


Some people on Luna will be useful to further the mining industry, but better places to live can be manufactured as space habitats in cis-lunar space. Robots should be at a lunar settlement before people are there not because we want to keep people out of a lunar base but because robots can prepare the necessary infrastructure for people to be able to efficiently contribute to the economy. People on Luna without robots and necessary support infrastructure would be like pilgrims coming to America without hatchets, saws, guns or nails. Outdoor work on the moon will mainly be done by remotely controlled machines, some of them controlled from Earth. A human working in a space suit is an inefficient way of doing something that should be avoided if possible. People will work indoors, sometimes controlling machines outside, sometimes analyzing samples from production or from exploration, sometimes doing repair work in a room with an inert atmosphere while wearing a SCIBA suit. Work with molten titanium and repair of equipment for vacuum use that would be damaged by exposure to oxygen or moisture is best carried out in an inert atmosphere. A SCIBA suit is much easier to work in than a space suit. Certainly people will find some recreational activity on Luna to fill their leisure time but this is about their work activities.


The purpose of a moon colony is to mine resources for industry to benefit Earth and extend human capabilities throughout the Solar System. This can be done with only a few people actually on the moon. Transportation can be available for return trips to Earth so there can be an exchange of personnel after a year or so tour of duty. Developing this situation should start with machines remotely controlled from Earth and no people on the moon because, before the infrastructure is set up, people are very expensive to maintain on the moon.


Mars colony enthusiasts are quick to point out that Mars has larger quantities of water, carbon dioxide, nitrogen, and argon than Earth's moon. So, given equal industrial capabilities, these substances and the carbon, hydrogen, and oxygen that can be derived from them would be easier to obtain on Mars. However, equal industrial capabilities are not given. They must be earned. Mars as it is, without an industrial infrastructure, is as deadly as the moon without the infrastructure.


It is easier to start the industrial development on Earth's moon because 1) It is possible to use remotely controlled machines on Luna with less than a three second round trip communications delay. 2) Transportation of machinery from Earth to Luna is cheaper and quicker than transportation to Mars. 3) It is possible to ship products off of Luna to start paying for the investment more cheaply than Mars can ever achieve. Remotely controlling machines on Mars from Earth is tortuously slow with round trip communication delays ranging from eight to forty-four minutes and communications black outs lasting up to a month every two years. The transportation to and from the rest of the Solar System from Mars is impeded by its atmosphere but from the moon transportation can be by low cost all electric means, achieving orbital velocity on the surface in the ambient vacuum. The lunar gravity well is only 22.4% as deep as the gravity well on Mars in terms of the energy needed to achieve low orbit. The only way Mars could compete with the ease of electric launch and landing available on Luna is to lunaform Mars, shading it with large satellites until the atmosphere freezes out. Material for such shades could come from Deimos, Phobos, or Luna. The industry to colonize and lunaform Mars is easiest to start on Luna. If industry were started on Mars, it would require people there from the start who would need to be supported initially by goods shipped from Earth.


Mars should be colonized. The easiest way to do it is with the massive low cost transportation of materials from the moon. These can be formed into large well shielded spacecraft and devices to reduce the cost of lifting people and cargo from Earth and from Mars. Oxygen from the moon can be used for rocket propellant. These advances are dependent upon industrialization. It is industrialization that increased economic productivity from the level of 15th century European peasants who lived in mud wattle huts to the level of the 20th century noted for central heating and personal automobiles. It is industrialization that is needed to expand the human economy into space. It is not the availability of massive amounts of water and nitrogen that is most important for deciding what should be the first human colony in outer space, but rather the ease of industrial development. This is where lunar colonies have the advantage.


Mars can serve as a source of mining also. With Martian materials used to build space habitats, homes could be provided for a million billion people instead of a mere ten billion that might live on the surface of Mars. The industry to be producing space habitats could be running in less than a hundred years rather than waiting hundreds of years to build up the industry necessary for manufacturing the greenhouse gasses needed for terraforming Mars and then another hundred years as this industry actually produces the gasses.


An important thing to keep in mind is that both Mars and Earth's moon need a controlled life support system for people to survive there. Theory indicates that this should be possible, but the exact details have not been worked out. If something like Biosphere 2 is built on Mars or the moon and it does not work out quite as planned, some very expensive resupply will need to make up for the failure. The needed life support system for neither celestial body has been demonstrated on Earth yet. The expense of shipping such a life support system to Mars is unknown, but if included in the expense of shipping astronauts to Mars it would make the expense much more than the six billion dollars mentioned by Mars One.


At a public meeting of the Human Space Flight Review Committee in 2009 someone put up signs reading "MARS DIRECT COWARDS RETURN TO THE MOON",according to The Space Review. This suggests that someone does not think that he has rational arguments to support his position and so resorts to insults or else that he thinks that political victory in getting support for one way trips to Mars is more important than logical arguments. Well, it would be possible to colonize Mars with trips direct from Earth. It would just be a more expensive way of moving human industry into space. Mars One plans to land the first colonists on Mars in 2023. If there is really a great deal of support for colonizing Mars starting in 2023 and Mars One gets the money to do it, then they will have shown that making the political decision was more important having economic arguments for one policy or another. We can wait and see how they do. While we are waiting we can work on developing the life support system model to test on Earth.