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  • This DNews episode is brought to you by Domain Dot Com!

  • What if you could live on Mars and not wear a spacesuit. Welcome to the world of terraforming!

  • Hey spacefarers, it's Trace! Thanks for watching DNews. Terraforming is the combination of

  • the latin terra -- or earth, and forming. Whichyou probably know what forming means.

  • It describes the process of converting an alien planet to be more Earth-like. The idea

  • would be to make a planet able to support human life without a spacesuit. To actually

  • PERFORM the process could take decades or even centuries, assuming it would even be

  • possible.

  • Mars is the golden boy for terraformation. It's a good size, not too far from the sun,

  • and has a minor atmosphere, if a thin one. If you were to stand on Mars as you're dressed

  • now, at the equator, at midday, in the Martian summer -- it would be a warm 80 degrees (27

  • C), but that's about it for the win. In the winter, it can get to almost minus 200 (-128C)

  • at night. Not to mention, Mars has no atmospheric pressure to speak of, so your blood would

  • boil, your organs would rupture, and there's no oxygen so you wouldn't be able to breathe.

  • No bueno. Its near-vacuum atmosphere is mostly CO2 with a tiny bit of nitrogen. By contrast,

  • Earth is mainly nitrogen, a tiny bit of of CO2 and 20 percent oxygen. But all that aside,

  • let's assume terraforming is possible.

  • Getting down to brass tacks, what exactly do we need to do to terraform the Red Planet?

  • We need to cut UV, raise the temperature and pressure, introduce water and fix the atmosphere

  • to make it Earth-like.

  • There are three major theories on how to do this. Theory One: use orbiting mirrors the

  • size of Lake Michigan to reflect sunlight and heat the surface. Point these impossibly

  • large mirrors at the polar ice caps to melt them, releasing CO2 trapped in the ice. Thicker

  • atmosphere will hold in more heat from the sun. Then we just have to find some oxygen

  • and nitrogen, maybe by breaking up the H2O? Theory Two: use greenhouse-gas producing factories

  • to build an atmosphere. (Kid Trace thought of this too) We're already accidentally doing

  • it to Earth, so we know the technology exists! More greenhouse gas equals warmer planet,

  • polar ice caps melt, from there it's the same as One. Theory Three: smash icy comets into

  • Mars.

  • The last one is my favorite for two reasons, Theory One requires 200,000 pound mirrors

  • to be built in space. Nope. Theory Two requires us to build factories on Mars, which is ludicrously

  • expensive and WILL contaminate the Martian environment with human bacteria. It is ALL

  • OVER US ALL THE TIME. Once infected the bacteria could mutate and really screw up our planet

  • baby.

  • If you saw my recent video called, "Why Is There Air," you might remember that Earth

  • was hit by a bunch of icy comets, distributing water and minerals on our infant planet. The

  • impacts thickened the atmosphere and heated us up. If we can do this for Mars too, then

  • we can create a terraformed Mars without introducing potentially invasive bacteria onto the surface.

  • I love that. According to HowStuffWorks, one fantastically large asteroid impact could

  • raise the temperature on Mars by 3 Celsius. This would melt a trillion gallons of water,

  • thicken the atmosphere and have the added bonus of introducing oxygen too.

  • Of course, any atmospheric modifications we made to Mars would slowly spin off into space

  • thanks to the solar wind's erosion and low gravity. If done properly, metallic asteroids

  • could be mixed with our thrown comets… A 2008 study from University of Toronto theorizes

  • that's how the Martian core got a magnetosphere in the first place, it might be we just need

  • to restart it.

  • So, let's say we're able to travel to the asteroid belt, grab some giant space rocks,

  • fix little nuclear engines on them which propel them on a collision course with Mars. Then

  • what?

  • Then we introduce genetically engineered soil bacteria, algae, plants and other oxygen and

  • carbon dioxide cycle generating life to try to make the biosphere habitable, and eventually

  • like centuries or millennia later -- we'd have a blue Mars. Assume we didn't screw it

  • up somehow, because there are no second chances.

  • In the end, if it worked, humans on Mars could stand outside and breathe the air, they'd

  • have less gravity to content with, so they'd have to figure that one out -- human bodies

  • don't do well with low gravity, and hopefully they'd have figured out how to avoid the GLOBAL

  • STORMS that come up sometimes during the Martian year. But hey, shrug, this is the future we're

  • talking about, maybe they'll be able to do anything?

  • Do you want to know more about terraforming? I know this was a big episode, so let me know

  • if you've still got questions and I'll do a follow up.

  • Thanks for watching DNews, fill up the comments section with your thoughts on terraforming

  • and controlling a whole planet. In the meantime, for more manageable control, why not just

  • start a website? Go to Domain Dot Com and grab a URL and make a website. No domain extension

  • will help you tell your story like a DOT COM or DOT NET domain name. Go to Domain dot come

  • and grab a domain name and use the coupon code DNEWS for 15 percent off!

This DNews episode is brought to you by Domain Dot Com!

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宇宙服なしで火星に住む方法 (How We Can Live On Mars Without A Spacesuit)

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    Jack に公開 2021 年 01 月 14 日
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