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Thread: Living on Mars?
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2017-12-16, 04:01 PM (ISO 8601)
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Re: Living on Mars?
My "1% on a good day" estimate was in regards to the sheer scale of blocking out the sun. I imagine that within a couple centuries we could figure out how to do it. I'm less certain that we will ever want to.
I used earth's crust mass to approximate the mass of Venus's crust and I am assuming that it is all quartz. Earth's crust is about 2.8 x 10^24 kg. Quartz has a heat capacity of 730 J/(kg K). In that case, the time to reduce the temperature of all of Venus's crust and all of its atmosphere by 50 K is 541 years. I am fairly certain that that is not actually a useful number.
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2017-12-18, 12:47 PM (ISO 8601)
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Re: Living on Mars?
I'm pretty sure I just showed that the atmosphere is not the problem vis-a-vis cooling Venus. The problem is the 700K rocks that need to cool down. I could probably construct a model for a reasonable heat gradient and use that to calculate the total heat that needs to be removed.
Also, unless we slow the comets down first, I am pretty sure that comets have more kinetic energy in their orbits than they would remove by being cold.
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2017-12-18, 01:43 PM (ISO 8601)
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Re: Living on Mars?
I was actually thinking the other day about how science fiction has traditionally depicted a Mars colony. It either ends up as a total craphole or succeeds from Earth and we end up in an interplanetary war.
Last edited by Giggling Ghast; 2017-12-18 at 01:50 PM.
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2017-12-18, 01:43 PM (ISO 8601)
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Re: Living on Mars?
With neither atmosphere or sun, a black body with surface temperature 300K emits about 460 Watts per square meter.
Rock conducts heat at a rate of about (1.5 Watts per square meter) per (Kelvin per meter), therefore supporting a temperature gradient of about 300 Kelvin per meter. 700K rocks need only be a few meters down below a comfortable surface temperature, if the only heat source is internal, and there is no atmosphere to shift the radiation to a cooler effective surface.
Please check these numbers. I was surprised.
-G.G. -- Aye, I just finished up two novels by PKD where the Mars colonies were pretty unpleasant places to live.Last edited by DavidSh; 2017-12-18 at 01:46 PM.
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2017-12-18, 02:29 PM (ISO 8601)
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Re: Living on Mars?
(emphasis mine)
The amount of atmosphere doesn't hugely affect the amount of energy transferred when you crash a comet into a planet1. High atmospheric friction2 with the comet means there is less kinetic energy in the comet when it hits the ground. A thinner atmosphere means that more of the kinetic energy is transferred directly to the ground. In either case, the same amount of energy is added to the planet's heat budget: energy equal to the comet's mass times the square of its speed relative to the planet.
1. The atmosphere can affect how much of the impact energy stays on the planet. A thicker atmosphere will make it harder for debris (and thus energy) from a large impact to escape the planet. No real difference for small impacts, though.
2. Friction between the atmosphere and the comet/meteoroid itself is pretty negligible. Most of the heating is caused by the compression of gas at the normal shock generated by the comet moving faster than the speed of sound in the atmosphere it's moving through.Warhammer 40,000 Campaign Skirmish Game: Warpstrike
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2017-12-18, 02:49 PM (ISO 8601)
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Re: Living on Mars?
That does sound a little low. I am going to assume we need to cool the equivalent of 20 meters of Venusian rock to achieve our aims. On the other hand, people don't need multiple meter thick walls on their ovens to be able to support 400 degrees higher temperatures inside. I'll see what I come up with with that new information. If anybody has a better material for the properties of rock than quartz, I would love to hear it. Maybe I should look up basalt.
Edit: Using Basalt instead of quartz, 20 meters of cooled rock, and assuming that the rate of radiation will be constant over the time frame, getting Venus down to earth temperatures (i.e. 16 C) will take 27.24 years. That seems almost doable if we can build a sun-shade big enough to blanket all of Venus in shadow and stick it at the Venus L1 point. Now to go figure out how big it would need to be.
Edit2: I did some math, and it looks like a total shade would be 1.8 times the diameter of Venus. It would have an area about 80% of Venus's surface area.
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2017-12-18, 04:43 PM (ISO 8601)
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Re: Living on Mars?
I don't have time to check them now, but I will note that one dimensional radial heat transfer looks pretty different than one dimensional linear heat transfer, with cylindrical and spherical systems also being pretty dramatically different. This looks like a linear heat transfer calculation that you've done.
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2017-12-19, 01:14 PM (ISO 8601)
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Re: Living on Mars?
The venusian day is currently negative five thousand some odd hours. That is right, it rotates backwards. I'm not sure if the proper adjective for what we want to do is shortening or lengthening at this point. Venus also has a 177.36 degree orbital obliquity (earth has 23 degrees). Maybe what we really want is to try to fix that orbital inclination to something closer to 20 degrees with the day going the right way before we start trying to change the length of the day.
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2017-12-19, 08:13 PM (ISO 8601)
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Re: Living on Mars?
While the temperature is way too hot that stuff doesn't matter, IMO, and I'm not sure it would matter when the temperature was survivable either, it's the sort of thing that life can adapt to fairly quickly.
Let me be clear, in my opinion living in space (in habitats in space in the first place) is important, living on other planets or bodies is less so, but of the planets Venus is available to us for long term use with less effort than any other planet would be. It would be possible to live on the Moon or Mars as if you were under the sea or something, and we couldn't do that on Venus, but if you want to be able to walk around without a spacesuit one day, getting to that stage will be easier on Venus.Last edited by halfeye; 2017-12-19 at 08:15 PM.
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2017-12-20, 02:18 AM (ISO 8601)
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Re: Living on Mars?
I'mma rain on all your parades... I may be championing all kinds of cutting edge rockets like SpaceX, but throwing asteroids around? Altering the spin of planets? You people have no idea the magnitude of the forces required.
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2017-12-20, 10:36 AM (ISO 8601)
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Re: Living on Mars?
Flinging an asteroid directly at its target takes enormous energy. Slightly altering an asteroid so its course eventually brings it to orbit a planet is a different matter. It still takes enormous amounts of energy, but it's far, far less than the direct route.
Changing rotational direction of Venus is pretty mind-boggling.
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2017-12-20, 10:43 AM (ISO 8601)
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Re: Living on Mars?
Last edited by Grey_Wolf_c; 2017-12-20 at 10:43 AM.
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2017-12-20, 11:27 AM (ISO 8601)
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Re: Living on Mars?
I agree, except for the notation, for me west is where the sun sets, that overrules the other language issues with Venus's rotation. As I read wikipedia, Venus actually has a fairly normal rotation that's just backward compared to Earth with very little axial tilt, which would mean there would be much less in the way of seasonal change.
The end of what Son? The story? There is no end. There's just the point where the storytellers stop talking.
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2017-12-20, 03:41 PM (ISO 8601)
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Re: Living on Mars?
Um, the venusian sidereal day is five-thousand some hours. The apparent day is two-thousand some. If you ignore the spinning backwards bit, the axial tilt is 3 degrees (my previous post was under the assumption that the axial tilt was about 90 degrees). My previous post was advocating pushing the tilt somewhere other than "pointed at the sun for a good chunk of the year", not trying to flip the thing over. If anything, simply changing the spin rate is probably cheaper and faster than trying to flip the planet over.
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2017-12-20, 04:48 PM (ISO 8601)
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Re: Living on Mars?
I'd argue otherwise? The actual moment of inertia of the planet is going to be roughly the same regardless of which direction you try to spin it in, and spinning it perpendicular to its axis of rotation can be done very slowly--yes, it might take years for the planet to finish turning over, but it's still a lot easier than making a major change to its axial spin rate.
Having said that, both ideas are so far beyond anything we can reasonably expect to be doing in the next thousand years that I don't think they're worth discussing--the energy requirements are colossal.
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2017-12-21, 10:50 AM (ISO 8601)
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Re: Living on Mars?
I'm pretty agnostic to where the mass comes from, but aren't comets inaccessible and rare? If you're using comets to change Venus's rotation, it's going to take a heck of a lot of them.
For that matter, it isn't at all clear to me why Venus's rotational direction needs to change.
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2017-12-22, 03:14 AM (ISO 8601)
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Re: Living on Mars?
The problem you have is energy, again. Changing the orbits of Kuiper belt material to bring it down into the inner Solar System wouldn't be too hard because they're not travelling very fast when they're out there, but pulling them into a useful orbit when they're actually *in* the inner Solar System and travelling at ridiculous velocities (something like 1.4x Venus' orbital velocity when they're at the same orbital distance, I think) would be an incredibly difficult thing to do.
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2017-12-22, 11:15 AM (ISO 8601)
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Re: Living on Mars?
The Kuiper belt is also mind-bogglingly huge. Detecting useful matter in this region is a staggering challenge which we'd need to overcome before putting it to use. Distances are between 30AU and 50AU from the sun, compared to a bit more than 3AU for the asteroid belt past Mars (which is at 1.5AU from Sol, or 0.5AU from Earth's orbital path).
A simple, 2D comparison of the Kuiper belt to the rest of the solar system suggests you'd need to survey a region nearly twice as large as the rest of the system. Matter in the Kuiper belt would be far more diffuse and poorly-lit than it is closer to the sun. It may well be that there is a lot of stuff out there worth putting to use, but the challenge of doing so is an order of magnitude harder compared to using other sources.
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2017-12-22, 12:42 PM (ISO 8601)
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Re: Living on Mars?
While we're on the topic of superconstruction pipe-dreams, what if we generated power by building a massive coil around a rapidly spinning magnetar (turning it into a gigantic dynamo) and running a long wire of superconducting YBCO from it back to our own solar system. Once the decades required for the electricity to travel the lightyears of distance had passed we would have a nearly unlimited supply of power.
Also what if we launched a bakery into orbit so we could have actual pie in the sky
EDIT:
What kind of engine do you need to put a castle in the air?Last edited by Bohandas; 2017-12-22 at 12:45 PM.
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2017-12-22, 01:49 PM (ISO 8601)
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Re: Living on Mars?
The end of what Son? The story? There is no end. There's just the point where the storytellers stop talking.
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2017-12-22, 02:54 PM (ISO 8601)
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Re: Living on Mars?
Those bodies are not very massive--they're mostly made of lighter materials like ice and are quite small. Eris is the most massive known Kuiper belt object at 0.0028x Earth mass, Pluto is a touch lighter, Haumea is less than 1/1000th Earth mass and I don't think Sedna's mass has been measured--so even if all four bodies were as massive as Eris (which they're not) the total would only be 0.0112 Earth masses, quite a bit less than WhatThePhysics' lower limit.
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2017-12-26, 01:29 PM (ISO 8601)
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Re: Living on Mars?
Give directly to the extreme poor.
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2017-12-26, 02:07 PM (ISO 8601)
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Re: Living on Mars?
I can see a couple of problems trying to cook a pie on the ISS. First is that you'll get bits of pastry, flour and who knows what else floating around in the microgravity and potentially causing issues. Secondly, I don't think conventional ovens work well in microgravity because there's no convection, so hot air tends to cluster around the heating elements--I suppose you could fix that one by using a fan-assisted oven, though.
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2017-12-26, 03:50 PM (ISO 8601)
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Re: Living on Mars?
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2017-12-26, 06:17 PM (ISO 8601)
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Re: Living on Mars?
Who said you had to cook the pie on the ISS? Just ship it up there...
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2017-12-27, 02:23 AM (ISO 8601)
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Re: Living on Mars?
They heat the air in the oven, which transfers heat to the food through conduction. Microwave ovens use resonant frequencies to increase the effectiveness of the energy delivered to specific parts of the food based on position, which is why they tend to do things like be frozen on the outside until you bite a piece of molten cheese. Neither is really radiative heat transfer the way it works outside of the atmosphere.
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2017-12-27, 02:27 AM (ISO 8601)
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Re: Living on Mars?
A grill cooks things through radiation. Ovens do it via transferring heat from the heating elements (or the gas flame, if you have a gas cooker) to the air inside the oven, and thence to the food, as georgie_leech said. That's why fan ovens exist--they're more efficient at transferring the heat.
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2018-01-01, 04:10 PM (ISO 8601)
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2018-01-02, 03:22 AM (ISO 8601)
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Re: Living on Mars?
I would have thought the bigger problem would be preventing friction in the bearings transferring the rotation of the centrifuge to the main body of the station.
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2018-01-02, 11:51 AM (ISO 8601)
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Re: Living on Mars?
You could probably compensate with microthrusters, but I thought the standard solution was having a counterweight spinning in the other direction?
Dunno how to fix the vibration problem, though. Could you just install some kind of floor-ventilation system to suck out all the flour and debris and create a crude proxy-gravity? There's a Nature paper in the making here, I just know it.Give directly to the extreme poor.