How deep a valley or trench would be needed on Mars to provide the same atmospheric pressure as 6 km above...
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Atmospheric pressure increases the deeper you go & the highest growing plants on Earth have been found at a height of 6 km so how deep a trench would we need on Mars to provide similar air pressure?
World’s highest plants discovered growing 6km above sea level
mars colonization atmosphere terraforming plants
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up vote
6
down vote
favorite
Atmospheric pressure increases the deeper you go & the highest growing plants on Earth have been found at a height of 6 km so how deep a trench would we need on Mars to provide similar air pressure?
World’s highest plants discovered growing 6km above sea level
mars colonization atmosphere terraforming plants
There's basically no O2 in the Martian atmosphere so no matter how deep you dig your trench, you still won't get an Earthlike atmosphere.
– Organic Marble
Dec 2 at 1:33
1
That would be a different question, I'm only asking about air pressure in this instance.
– Pelinore
Dec 2 at 1:35
Then you need to edit your question and make that clear. You just say "conditions".
– Organic Marble
Dec 2 at 1:36
2
Edited to clarify. Both of you play nice.
– Russell Borogove
Dec 2 at 1:43
1
Since the OP is interested in growing plants, he does not need the air pressure. He needs the CO2 partial pressure. One would have to calculate the CO2 partial pressure at 6000m altitude on Earth, and find the equivalent partial pressure depth on Mars.
– dotancohen
Dec 2 at 12:04
|
show 8 more comments
up vote
6
down vote
favorite
up vote
6
down vote
favorite
Atmospheric pressure increases the deeper you go & the highest growing plants on Earth have been found at a height of 6 km so how deep a trench would we need on Mars to provide similar air pressure?
World’s highest plants discovered growing 6km above sea level
mars colonization atmosphere terraforming plants
Atmospheric pressure increases the deeper you go & the highest growing plants on Earth have been found at a height of 6 km so how deep a trench would we need on Mars to provide similar air pressure?
World’s highest plants discovered growing 6km above sea level
mars colonization atmosphere terraforming plants
mars colonization atmosphere terraforming plants
edited Dec 2 at 10:14
asked Dec 2 at 1:14
Pelinore
2067
2067
There's basically no O2 in the Martian atmosphere so no matter how deep you dig your trench, you still won't get an Earthlike atmosphere.
– Organic Marble
Dec 2 at 1:33
1
That would be a different question, I'm only asking about air pressure in this instance.
– Pelinore
Dec 2 at 1:35
Then you need to edit your question and make that clear. You just say "conditions".
– Organic Marble
Dec 2 at 1:36
2
Edited to clarify. Both of you play nice.
– Russell Borogove
Dec 2 at 1:43
1
Since the OP is interested in growing plants, he does not need the air pressure. He needs the CO2 partial pressure. One would have to calculate the CO2 partial pressure at 6000m altitude on Earth, and find the equivalent partial pressure depth on Mars.
– dotancohen
Dec 2 at 12:04
|
show 8 more comments
There's basically no O2 in the Martian atmosphere so no matter how deep you dig your trench, you still won't get an Earthlike atmosphere.
– Organic Marble
Dec 2 at 1:33
1
That would be a different question, I'm only asking about air pressure in this instance.
– Pelinore
Dec 2 at 1:35
Then you need to edit your question and make that clear. You just say "conditions".
– Organic Marble
Dec 2 at 1:36
2
Edited to clarify. Both of you play nice.
– Russell Borogove
Dec 2 at 1:43
1
Since the OP is interested in growing plants, he does not need the air pressure. He needs the CO2 partial pressure. One would have to calculate the CO2 partial pressure at 6000m altitude on Earth, and find the equivalent partial pressure depth on Mars.
– dotancohen
Dec 2 at 12:04
There's basically no O2 in the Martian atmosphere so no matter how deep you dig your trench, you still won't get an Earthlike atmosphere.
– Organic Marble
Dec 2 at 1:33
There's basically no O2 in the Martian atmosphere so no matter how deep you dig your trench, you still won't get an Earthlike atmosphere.
– Organic Marble
Dec 2 at 1:33
1
1
That would be a different question, I'm only asking about air pressure in this instance.
– Pelinore
Dec 2 at 1:35
That would be a different question, I'm only asking about air pressure in this instance.
– Pelinore
Dec 2 at 1:35
Then you need to edit your question and make that clear. You just say "conditions".
– Organic Marble
Dec 2 at 1:36
Then you need to edit your question and make that clear. You just say "conditions".
– Organic Marble
Dec 2 at 1:36
2
2
Edited to clarify. Both of you play nice.
– Russell Borogove
Dec 2 at 1:43
Edited to clarify. Both of you play nice.
– Russell Borogove
Dec 2 at 1:43
1
1
Since the OP is interested in growing plants, he does not need the air pressure. He needs the CO2 partial pressure. One would have to calculate the CO2 partial pressure at 6000m altitude on Earth, and find the equivalent partial pressure depth on Mars.
– dotancohen
Dec 2 at 12:04
Since the OP is interested in growing plants, he does not need the air pressure. He needs the CO2 partial pressure. One would have to calculate the CO2 partial pressure at 6000m altitude on Earth, and find the equivalent partial pressure depth on Mars.
– dotancohen
Dec 2 at 12:04
|
show 8 more comments
1 Answer
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6
down vote
accepted
Mars' atmosphere scale height is, depending on who you ask, 10.8 to 11.1 km.
- Pressure at the bottom of Hellas Planitia: 1.16 kPa
- Earth sea level: 101.3 kPa
- Earth 6km altitude: ~50 kPa.
So we need air pressure to increase by a factor of about 43; ln 43 = 3.76 scale heights -- so we need a trench about 41km deep. Start digging!
This gets equivalent air pressure, but there's almost no oxygen. Partial pressure of CO2 on the other hand is about 2400 times higher -- Mars's surface level atmosphere offers more CO2 than Earth as it is.
"Start digging!" got my shovel, just waiting on my ticket from SpaceX :)
– Pelinore
Dec 2 at 2:08
1
And note that at this depth your trench almost certainly collapses in on itself, the rock can't take the load.
– Loren Pechtel
Dec 2 at 3:16
2
@LorenPechtel that depends on how steep the sides are, it has little to do with the depth.
– Level River St
Dec 2 at 8:44
1
This answers the question asked! At 1.16kPa water boils at around 8C, at 50kPa, it boils at around 83C. Note that humans can tolerate pressures down to 6kPa (for periods short enough to avoid asphyxia) before their eyeballs and lungs are damaged by water boiling. That said, article cited by the OP states that the problem for plants at 6km altitude is not the pressure but rather "drought and frost." These are still going to be problems in a 40km deep trench on Mars.
– Level River St
Dec 2 at 8:53
@LevelRiverSt No, that trench is getting down to the point where the rocks will flow under the pressure. How steep the sides are has nothing to do with that.
– Loren Pechtel
Dec 2 at 21:33
|
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1 Answer
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1 Answer
1
active
oldest
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votes
up vote
6
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accepted
Mars' atmosphere scale height is, depending on who you ask, 10.8 to 11.1 km.
- Pressure at the bottom of Hellas Planitia: 1.16 kPa
- Earth sea level: 101.3 kPa
- Earth 6km altitude: ~50 kPa.
So we need air pressure to increase by a factor of about 43; ln 43 = 3.76 scale heights -- so we need a trench about 41km deep. Start digging!
This gets equivalent air pressure, but there's almost no oxygen. Partial pressure of CO2 on the other hand is about 2400 times higher -- Mars's surface level atmosphere offers more CO2 than Earth as it is.
"Start digging!" got my shovel, just waiting on my ticket from SpaceX :)
– Pelinore
Dec 2 at 2:08
1
And note that at this depth your trench almost certainly collapses in on itself, the rock can't take the load.
– Loren Pechtel
Dec 2 at 3:16
2
@LorenPechtel that depends on how steep the sides are, it has little to do with the depth.
– Level River St
Dec 2 at 8:44
1
This answers the question asked! At 1.16kPa water boils at around 8C, at 50kPa, it boils at around 83C. Note that humans can tolerate pressures down to 6kPa (for periods short enough to avoid asphyxia) before their eyeballs and lungs are damaged by water boiling. That said, article cited by the OP states that the problem for plants at 6km altitude is not the pressure but rather "drought and frost." These are still going to be problems in a 40km deep trench on Mars.
– Level River St
Dec 2 at 8:53
@LevelRiverSt No, that trench is getting down to the point where the rocks will flow under the pressure. How steep the sides are has nothing to do with that.
– Loren Pechtel
Dec 2 at 21:33
|
show 7 more comments
up vote
6
down vote
accepted
Mars' atmosphere scale height is, depending on who you ask, 10.8 to 11.1 km.
- Pressure at the bottom of Hellas Planitia: 1.16 kPa
- Earth sea level: 101.3 kPa
- Earth 6km altitude: ~50 kPa.
So we need air pressure to increase by a factor of about 43; ln 43 = 3.76 scale heights -- so we need a trench about 41km deep. Start digging!
This gets equivalent air pressure, but there's almost no oxygen. Partial pressure of CO2 on the other hand is about 2400 times higher -- Mars's surface level atmosphere offers more CO2 than Earth as it is.
"Start digging!" got my shovel, just waiting on my ticket from SpaceX :)
– Pelinore
Dec 2 at 2:08
1
And note that at this depth your trench almost certainly collapses in on itself, the rock can't take the load.
– Loren Pechtel
Dec 2 at 3:16
2
@LorenPechtel that depends on how steep the sides are, it has little to do with the depth.
– Level River St
Dec 2 at 8:44
1
This answers the question asked! At 1.16kPa water boils at around 8C, at 50kPa, it boils at around 83C. Note that humans can tolerate pressures down to 6kPa (for periods short enough to avoid asphyxia) before their eyeballs and lungs are damaged by water boiling. That said, article cited by the OP states that the problem for plants at 6km altitude is not the pressure but rather "drought and frost." These are still going to be problems in a 40km deep trench on Mars.
– Level River St
Dec 2 at 8:53
@LevelRiverSt No, that trench is getting down to the point where the rocks will flow under the pressure. How steep the sides are has nothing to do with that.
– Loren Pechtel
Dec 2 at 21:33
|
show 7 more comments
up vote
6
down vote
accepted
up vote
6
down vote
accepted
Mars' atmosphere scale height is, depending on who you ask, 10.8 to 11.1 km.
- Pressure at the bottom of Hellas Planitia: 1.16 kPa
- Earth sea level: 101.3 kPa
- Earth 6km altitude: ~50 kPa.
So we need air pressure to increase by a factor of about 43; ln 43 = 3.76 scale heights -- so we need a trench about 41km deep. Start digging!
This gets equivalent air pressure, but there's almost no oxygen. Partial pressure of CO2 on the other hand is about 2400 times higher -- Mars's surface level atmosphere offers more CO2 than Earth as it is.
Mars' atmosphere scale height is, depending on who you ask, 10.8 to 11.1 km.
- Pressure at the bottom of Hellas Planitia: 1.16 kPa
- Earth sea level: 101.3 kPa
- Earth 6km altitude: ~50 kPa.
So we need air pressure to increase by a factor of about 43; ln 43 = 3.76 scale heights -- so we need a trench about 41km deep. Start digging!
This gets equivalent air pressure, but there's almost no oxygen. Partial pressure of CO2 on the other hand is about 2400 times higher -- Mars's surface level atmosphere offers more CO2 than Earth as it is.
answered Dec 2 at 1:46
Russell Borogove
80.4k2266351
80.4k2266351
"Start digging!" got my shovel, just waiting on my ticket from SpaceX :)
– Pelinore
Dec 2 at 2:08
1
And note that at this depth your trench almost certainly collapses in on itself, the rock can't take the load.
– Loren Pechtel
Dec 2 at 3:16
2
@LorenPechtel that depends on how steep the sides are, it has little to do with the depth.
– Level River St
Dec 2 at 8:44
1
This answers the question asked! At 1.16kPa water boils at around 8C, at 50kPa, it boils at around 83C. Note that humans can tolerate pressures down to 6kPa (for periods short enough to avoid asphyxia) before their eyeballs and lungs are damaged by water boiling. That said, article cited by the OP states that the problem for plants at 6km altitude is not the pressure but rather "drought and frost." These are still going to be problems in a 40km deep trench on Mars.
– Level River St
Dec 2 at 8:53
@LevelRiverSt No, that trench is getting down to the point where the rocks will flow under the pressure. How steep the sides are has nothing to do with that.
– Loren Pechtel
Dec 2 at 21:33
|
show 7 more comments
"Start digging!" got my shovel, just waiting on my ticket from SpaceX :)
– Pelinore
Dec 2 at 2:08
1
And note that at this depth your trench almost certainly collapses in on itself, the rock can't take the load.
– Loren Pechtel
Dec 2 at 3:16
2
@LorenPechtel that depends on how steep the sides are, it has little to do with the depth.
– Level River St
Dec 2 at 8:44
1
This answers the question asked! At 1.16kPa water boils at around 8C, at 50kPa, it boils at around 83C. Note that humans can tolerate pressures down to 6kPa (for periods short enough to avoid asphyxia) before their eyeballs and lungs are damaged by water boiling. That said, article cited by the OP states that the problem for plants at 6km altitude is not the pressure but rather "drought and frost." These are still going to be problems in a 40km deep trench on Mars.
– Level River St
Dec 2 at 8:53
@LevelRiverSt No, that trench is getting down to the point where the rocks will flow under the pressure. How steep the sides are has nothing to do with that.
– Loren Pechtel
Dec 2 at 21:33
"Start digging!" got my shovel, just waiting on my ticket from SpaceX :)
– Pelinore
Dec 2 at 2:08
"Start digging!" got my shovel, just waiting on my ticket from SpaceX :)
– Pelinore
Dec 2 at 2:08
1
1
And note that at this depth your trench almost certainly collapses in on itself, the rock can't take the load.
– Loren Pechtel
Dec 2 at 3:16
And note that at this depth your trench almost certainly collapses in on itself, the rock can't take the load.
– Loren Pechtel
Dec 2 at 3:16
2
2
@LorenPechtel that depends on how steep the sides are, it has little to do with the depth.
– Level River St
Dec 2 at 8:44
@LorenPechtel that depends on how steep the sides are, it has little to do with the depth.
– Level River St
Dec 2 at 8:44
1
1
This answers the question asked! At 1.16kPa water boils at around 8C, at 50kPa, it boils at around 83C. Note that humans can tolerate pressures down to 6kPa (for periods short enough to avoid asphyxia) before their eyeballs and lungs are damaged by water boiling. That said, article cited by the OP states that the problem for plants at 6km altitude is not the pressure but rather "drought and frost." These are still going to be problems in a 40km deep trench on Mars.
– Level River St
Dec 2 at 8:53
This answers the question asked! At 1.16kPa water boils at around 8C, at 50kPa, it boils at around 83C. Note that humans can tolerate pressures down to 6kPa (for periods short enough to avoid asphyxia) before their eyeballs and lungs are damaged by water boiling. That said, article cited by the OP states that the problem for plants at 6km altitude is not the pressure but rather "drought and frost." These are still going to be problems in a 40km deep trench on Mars.
– Level River St
Dec 2 at 8:53
@LevelRiverSt No, that trench is getting down to the point where the rocks will flow under the pressure. How steep the sides are has nothing to do with that.
– Loren Pechtel
Dec 2 at 21:33
@LevelRiverSt No, that trench is getting down to the point where the rocks will flow under the pressure. How steep the sides are has nothing to do with that.
– Loren Pechtel
Dec 2 at 21:33
|
show 7 more comments
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There's basically no O2 in the Martian atmosphere so no matter how deep you dig your trench, you still won't get an Earthlike atmosphere.
– Organic Marble
Dec 2 at 1:33
1
That would be a different question, I'm only asking about air pressure in this instance.
– Pelinore
Dec 2 at 1:35
Then you need to edit your question and make that clear. You just say "conditions".
– Organic Marble
Dec 2 at 1:36
2
Edited to clarify. Both of you play nice.
– Russell Borogove
Dec 2 at 1:43
1
Since the OP is interested in growing plants, he does not need the air pressure. He needs the CO2 partial pressure. One would have to calculate the CO2 partial pressure at 6000m altitude on Earth, and find the equivalent partial pressure depth on Mars.
– dotancohen
Dec 2 at 12:04