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Now, this is possible, but it s very expensive. it s very difficult to do. so what we re looking at now is, in the longer term, we want to make exploration sustainable and permanent. oxygen, for example, is something that we need on the moon for propulsion, for rocket fuel and for breathing. we can get that out of ice at the lunar poles and from lunar rocks, which are made of about 40% oxygen. we re also left with metals, and those metals can be used to make equipment, make materials. the moon is also the only place we can go, three days away, to start to understand what it means to live and work away from the earth. so if we want to learn how to use resources locally and in a responsible and clever way to prepare us for going on to mars and elsewhere, the moon is where we have to do it. of course, this won t happen tomorrow. but technological advancement is starting to push forward the possibilities of learning more about the moon, followed by mars and beyond. ....
Purposes before. so a robotic version of this 3d printer could make use not only of substances found on the lunar surface, but also raw materials transported there in as low a volume as possible. exploration in the past has always been about taking everything you can with you wherever you go. now, this is possible, but it s very expensive. it s very difficult to do. so what we re looking at now is, in the longer term, we want to make exploration sustainable and permanent. 0xygen, for example, is something that we need on the moon for propulsion, for rocket fuel and for breathing. we can get that out of ice at the lunar poles and from lunar rocks, which are made of about 40% oxygen. we re also left with metals, and those metals can be used to make equipment, make materials. the moon is also the only place we can go, three days away, to start to understand what it means to live and work ....
On the lunar surface, but also raw materials transported there in as low a volume as possible. exploration in the past has always been about taking everything you can with you wherever you go. now, this is possible, but it s very expensive. it s very difficult to do. so what we re looking at now is, in the longer term, we want to make exploration sustainable and permanent. oxygen, for example, is something that we need on the moon for propulsion, for rocket fuel and for breathing. we can get that out of ice at the lunar poles and from lunar rocks, which are made of about 40% oxygen. we re also left with metals, and those metals can be used to make equipment, make materials. the moon is also the only place we can go, three days away, to start to understand what it means to live and work away from the earth. so if we want to learn how to use resources locally and in a responsible and clever ....
Metals, ceramic materials. and you could print food. you can print stem cells for medical applications. there s almost no limit of what you could not print. and even more important, what you can do is you can recycle. so you could actually then have a very sustainable operation by reusing stuff we have used for other purposes before. so a robotic version of this 3d printer could make use not only of substances found on the lunar surface, but also raw materials transported there in as low a volume as possible. exploration in the past has always been about taking everything you can with you wherever you go. now, this is possible, but it s very expensive. it s very difficult to do. so what we re looking at now is, in the longer term, we want to make exploration sustainable and permanent. oxygen, for example, is something that we need on the moon for propulsion, for rocket fuel and for breathing. we can get that out ....
Always been about taking everything you can with you wherever you go. now, this is possible, but it s very expensive. it s very difficult to do. so what we re looking at now is, in the longer term, we want to make exploration sustainable and permanent. oxygen, for example, is something that we need on the moon for propulsion, for rocket fuel and for breathing. we can get that out of ice at the lunar poles and from lunar rocks, which are made of about 40% oxygen. we re also left with metals, and those metals can be used to make equipment, make materials. the moon is also the only place we can go, three days away, to start to understand what it means to live and work away from the earth. so if we want to learn how to use resources locally and in a responsible and clever way to prepare us for going on to mars and elsewhere, the moon is where we have to do it. of course, this won t happen tomorrow. but technological advancement is starting to push forward the possibilities of learning more ....