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  • i think every astronaut who goes into  space does learn the value of earth  

  • and has a different perspective of earth um  it's impossible not to be you know changed  

  • by looking back on your home planet and having  a fresh appreciation of how tiny uh earth is  

  • and and how vulnerable it looks and how  fragile it looks in this vast universe

  • what do you think the attraction is of going  into space i think there's on several levels i  

  • mean it's attractive because it's the future  it's the future of exploration the unknown  

  • pushing boundaries also uh the future of  science and technology and engineering  

  • really the stuff we're doing in space is at the  cutting edge of what humans are capable of doing  

  • and what technology is capable of doing so it's  fascinating to many people are on different levels  

  • you talk about the importance of international  partnership i think no one will again say that  

  • is is that something that is becoming more  difficult because we're we're in generally  

  • troubled times of international cooperation is  that going to affect the the new race for space  

  • i don't think so if you look over uh the history  of the space programme since apollo sawyers first  

  • started working together in the 70s there's been  awful an awful lot of political tension between  

  • different factions there throughout that era  and the what we're doing in space and to many  

  • degrees what we do in science globally it has  an ability to transcend political differences  

  • so we have to work together as partnership now  we have to pool our resources pool our funding  

  • together and our technology and our expertise  and our ingenuity but that actually in itself  

  • has created this really strong partnership  which is fantastic and we'll continue on to our  

  • next project project which is to go back to the  moon uh so we're doing it in a more combined uh  

  • partnership we're doing it in a more sustainable  fashion not just to go back to the moon  

  • and return home but to go there and stay and as  a stepping stone onto mars so it's very exciting  

  • future but it does need political stability it  does need financial stability any long duration  

  • space program has to have those two things to work  and the one good thing that we have got to build  

  • on is this international collaboration obviously  first step the moon but we've been to the moon  

  • why do we want to go back yeah so there's a couple  of good reasons for going back to the moon firstly  

  • as we've we've barely scratched the surface uh  we you know got so much to learn about the moon  

  • the moon was probably formed from an early  collision with the earth so it's part of us  

  • and yet having been out there untouched for four  and a half billion years it acts as a repository  

  • of of information about the solar system's  formation and that can really teach us a lot  

  • and in addition in terms of exploration it's  a natural place to start learning about how to  

  • live and work proper properly on another  celestial body you know with a permanent  

  • presence and understanding that environment asstepping stone onto mars and potentially some of  

  • the moons of perhaps jupiter and saturn to go back  to the moon do we do we have the technology to go  

  • back and stay do we have the technology now or are  there missing bits that we still have to develop  

  • well there are bits that we have to develop but  we have the technology as in there is nothing  

  • outside of what is not possible with today's  manufacturing techniques and our capabilities  

  • um so we have already manufactured the spacecraft  that's going to take us there the orion  

  • we've already manufactured the the service module  the european service module for that spacecraft  

  • so that technology exists it's been manufactured  it's going to fly within the next couple of years  

  • the gateway is a smaller version of the  international space station there's nothing  

  • that we cannot do there that we haven't done  before and so the one element that we need to  

  • still develop more is the lander system but again  we've landed on the moon we know how to do that  

  • uh so there is no there are no uh hurdles that are  yet to overcome in order to get into the surface  

  • of the moon in terms of staying there uh we need  to put up habitation modules but there are some  

  • really ingenious ways we can do that uh we can  use inflatable modules we can use 3d printing  

  • techniques from lunar regolith all these kind  of technologies are being explored in the early  

  • stages i expect we'll use modules very similar  to what we've seen on space stations because  

  • that's easy for us to do but i expect things  like that the 3d printed you know uh habitation  

  • modules that's the thing that's certainly  within our grasp in the future or even using  

  • underground uh areas on the on the surface of the  moon which give us radiation protection as well  

  • and how do we make those communities sustainable  as in self-sustaining the way that we're going  

  • to make this sustainable is by improving the  technologies that we've already developed on  

  • the space station for example of how to recycle  our water how to recycle our air how to make our  

  • solar panels more efficient there are places  on the lunar surface which are in 80 sunlight  

  • so it's a naturally uh good place to start  with a habitation module there and so we're  

  • going to develop these techniques as we occupy  the moon and we learn more about our environment  

  • and of course we will necessarily  be exploiting resources on the moon  

  • you mentioned in your talk the water ice near the  south pole of the moon where we can extract water  

  • and oxygen not just just to sustain our cells but  for rocket fuel is there a danger that we start to  

  • over exploit those resources we will certainly  have to manage our exploration of the moon very  

  • carefully and in a coordinated manner i think  some of the most important things we need  

  • right now more than the technology that we spoke  about is uh the political framework uh such as  

  • the united nations in giving us a more up-to-date  outer space treaty that deals with the protection  

  • of these environments we know that nobody owns  the moon but it's a little bit vague and it can be  

  • read in different ways by different corporations  different nations commercial entities for example  

  • so i think we need stronger and clearer regulatory  framework for the use of outer space and for  

  • this exploration i think that's very important in  order to protect the lunar environment to protect  

  • mars and to protect other bodies in the solar  system but we i mean we do have time we're not  

  • suddenly going to see thousands of people going  off to the moon within the next couple of decades  

  • this is going to take a long period of time  and the initial stages will be very limited  

  • exploration of the moon because you meant as  you mentioned there it's not just nations it's  

  • potentially commercial operations does that  bring new challenges that we need to think  

  • about in terms of regulation in space yeah the  commercial partnership with commercial entities  

  • uh it brings new challenges but it also brings  incredible new opportunities and actually i i mean  

  • who hasn't been encouraged by seeing some of  the sustainability that spacex for example have  

  • managed to achieve with reusing first stage second  stage boosters bringing down the cost of access to  

  • space and making it a more sustainable project we  already work hand in hand with commercial entities  

  • for resupply of the space station next year we'll  see two commercial vehicles boeing and spacex  

  • providing crew to the space station and we're  already working in partnership with commercial  

  • entities to help build this gateway in orbit  around the moon and to go back to the surface  

  • of the moon companies like blue origin  as well which are very developed in their  

  • lunar landing systems uh will be will be  key in working with commercial entities  

  • so yes challenges but also i think far more than  that greater potential and opportunity because  

  • it's not just about sustainability i guess there's  already a problem with space debris which is  

  • only going to get worse you would have thought  with with lots of people competing to put up  

  • satellites in orbit is to what extent is that our  problem now space debris is a problem now i think  

  • it's only going to get better actually in terms  of we understand the problem and and everybody  

  • realizes how valuable space is which means that  everybody wants to protect that environment if  

  • you're a commercial entity the last thing you  want is your expensive satellite being destroyed  

  • and clearly if you have humans in space the last  thing you want is a risk of a collision as well  

  • everybody is working towards minimizing space  debris and identifying techniques for cleaning  

  • up space and any satellite that goes into orbit in  making sure that we can de-orbit it safely either  

  • to burn up in the atmosphere or to go far away  from from planet earth so i think the fact that  

  • we we now have a great understanding of how big  the space debris problem is means that everyone is  

  • working to reduce that problem another interesting  aspect of the new space age that you mentioned in  

  • your talk was the psychological aspect if we're  going to the moon and spending a long time there  

  • or even using that as a stepping stone to mars it  takes eight or nine months to get to mars how do  

  • we ensure the the psychological robustness and the  cooperation of team members yes so we are going  

  • to have to be incredibly careful when we select  astronauts for those future missions and that's uh  

  • something we have been uh working on for many  years in terms of the psychological profiling for  

  • example uh that we've used to select astronauts  to date um so yes we're gonna have to work very  

  • carefully on that and once we've selected those  astronauts we need to work equally carefully on  

  • the training that they receive to prepare them  as well as we can for what they're about to do  

  • but i certainly believe it is it's within uh human  tolerance both physiologically and psychologically  

  • to be able to go on a long duration three-year  mission to mars um we've already had a simulation  

  • of that for example in the mars 500 study  which was done uh outside of moscow uh and  

  • you know we're learning an awful lot about the  kind of psychological profiling it's going to  

  • be required for those missions what about i know  this is going way into the future but imagine we  

  • establish a colony on mars what about  governance there you know if something  

  • goes wrong and it takes eight nine months  for someone to come out from earth how do we  

  • ensure that there are robust structures societal  structures i think that's where it comes down  

  • to again there's conversations we need to have  right now um important conversations about how  

  • we uh legislate and regularize or regulate sorry  the space environment and uh for example colonies  

  • on on mars colonies on the moon uh so yeah we  need to certainly before those missions occur  

  • that needs to be in place have we thought enough  about the psychology even of the remoteness from  

  • earth i mean you talked about always when you're  on the international space station always having  

  • the earth there and indeed admiring the earth but  when earth is a barely visible blue dot how does  

  • that change the psychology of being in space do  you think i think it's going to be um something  

  • that our future astronauts on these missions  to mars is going to be incredible to actually  

  • witness the earth disappearing to just a small  speck of light in this in the sky it was i've  

  • had the pleasure of talking to several apollo  astronauts about that experience of seeing  

  • the earth disappear to so small it could just be  covered up by a thumb out of the window so i think  

  • we need to look at uh lessons from the past from  our apollo colleagues and from studies that we've  

  • been doing uh in order to apply them to the future  of space exploration and really understand that  

  • environment that future astronauts are going to  need to work in would you yourself want to go to  

  • the moon or or even mars i would love a mission  to the moon i think i i find that absolutely  

  • fascinating it's within my career time frame so  there is a possibility of getting that mission um  

  • i think it will be extremely challenging very  rewarding as well um i think a mission to mars  

  • uh at the moment i've got two uh young sons andthink a three-year mission away for any father is  

  • a long period of time and so i think that you have  a responsibility as a father to be there for your  

  • children whilst they're growing up once they're at  university and off doing their own thing then who  

  • knows what sort of time frame do you think we're  talking about of going to mars what's realistic  

  • i think uh in the next 10 years we are going to  see a settlement on the surface of the moon and  

  • we're going to see regular uh tours and rotations  of astronauts going to to live and work on the  

  • moon i think the decade after that is when we'll  start to see mars exploration in terms of firstly  

  • humans going in orbit around mars and then  landing on the surface so i do think we're  

  • talking about late the late 2030s into the 2040s  for those first surface landing missions on mars  

  • 50 100 years in the future i think we'll have uh  you know several outposts on the lunar surface i  

  • think we'll see regular uh missions going  to the moon both commercial and national  

  • space agencies and i think we'll also have  outposts on mars within a 50 to 100 years time  

  • uh absolutely and i think we'll also see that  we've cut down our propulsion techniques as  

  • well it won't it won't be an eight-month journey  in 50 to 100 years time you know we'll probably  

  • have that down to about two months will we be  coming back to earth or will we be staying away um  

  • you know yes you can look thousands of years into  the future where there may be civilizations human  

  • civilizations that don't uh come back to earth but  for right now it's talking about exploration with  

  • a view to returning to earth is that a reason to  go to space to teach us the value of earth i think  

  • every astronaut who goes into space does learn the  value of earth and has a different perspective of  

  • earth it's impossible not to be you know changed  by looking back on your home planet and having a  

  • fresh appreciation of how tiny uh earth is and  and how vulnerable it looks and how fragile it  

  • looks in this vast universe so um i think it does  certainly teach us about our place in the universe

i think every astronaut who goes into  space does learn the value of earth  

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太空(Tim Peake: The future of humans in space)

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    joey joey 發佈於 2021 年 12 月 31 日
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