Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers(before being cured, or in the case of the gaskets, when they are being formed) to pull the air bubbles that are stuck in the solution out for a much better result.
Its funny, I agree with you, man likely didnt make it to the moon, but this is just silly. Why would the vacuum on the moon be any different than space? It has no atmosphere.
Perhaps some of earths atmosphere extends there, but who the fuck knows. But I can tell you with a 100% certainty, it aint gonna get anymore sucky then space.
https://www.youtube.com/shorts/2LEvpzzaMUM
see....
You can find all sorts of videos of cans, because very thin aluminum turns out isnt very strong. Show me one of a pop bottle. They are designed to hold some high pressures and you wont find any because who the fuck wants to watch a bottle just sit there in a vacuum.
https://www.youtube.com/watch?v=bSZMNu4PWf8
Buddy even says, he doesnt think its enough pressure inside to make it explode. At the end, again he even says, looks like this can could survive the vacuum of outer space.....
Are you fucking satisfied yet? Have I amused you?
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers(before being cured, or in the case of the gaskets, when they are being formed) to pull the air bubbles that are stuck in the solution out for a much better result.
Its funny, I agree with you, man likely didnt make it to the moon, but this is just silly. Why would the vacuum on the moon be any different than space? It has no atmosphere.
Perhaps some of earths atmosphere extends there, but who the fuck knows. But I can tell you with a 100% certainty, it aint gonna get anymore sucky then space.
https://www.youtube.com/shorts/2LEvpzzaMUM
see....
You can find all sorts of videos of cans, because very thin aluminum turns out isnt very strong. Show me one of a pop bottle. They are designed to hold some high pressures and you wont find any because who the fuck wants to watch a bottle just sit there in a vacuum.
https://www.youtube.com/watch?v=bSZMNu4PWf8
Buddy even says, he doesnt think its enough pressure inside to make it explode.
Are you fucking satisfied yet? Have I amused you?
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers(before being cured, or in the case of the gaskets, when they are being formed) to pull the air bubbles that are stuck in the solution out for a much better result.
Its funny, I agree with you, man likely didnt make it to the moon, but this is just silly. Why would the vacuum on the moon be any different than space? It has no atmosphere.
Perhaps some of earths atmosphere extends there, but who the fuck knows. But I can tell you with a 100% certainty, it aint gonna get anymore sucky then space.
https://www.youtube.com/shorts/2LEvpzzaMUM
see....
You can find all sorts of videos of cans, because very thin aluminum turns out isnt very strong. Show me one of a pop bottle. They are designed to hold some high pressures and you wont find any because who the fuck wants to watch a bottle just sit there in a vacuum.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers(before being cured, or in the case of the gaskets, when they are being formed) to pull the air bubbles that are stuck in the solution out for a much better result.
Its funny, I agree with you, man likely didnt make it to the moon, but this is just silly. Why would the vacuum on the moon be any different than space? It has no atmosphere.
Perhaps some of earths atmosphere extends there, but who the fuck knows. But I can tell you with a 100% certainty, it aint gonna get anymore sucky then space.
https://www.youtube.com/shorts/2LEvpzzaMUM
see....
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers(before being cured, or in the case of the gaskets, when they are being formed) to pull the air bubbles that are stuck in the solution out for a much better result.
Its funny, I agree with you, man likely didnt make it to the moon, but this is just silly. Why would the vacuum on the moon be any different than space? It has no atmosphere.
Perhaps some of earths atmosphere extends there, but who the fuck knows. But I can tell you with a 100% certainty, it aint gonna get anymore sucky then space.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers to pull the air bubbles that are stuck in the solution out for a much better result.
Its funny, I agree with you, man likely didnt make it to the moon, but this is just silly. Why would the vacuum on the moon be any different than space? It has no atmosphere.
Perhaps some of earths atmosphere extends there, but who the fuck knows. But I can tell you with a 100% certainty, it aint gonna get anymore sucky then space.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers to pull the air bubbles that are stuck in the solution out for a much better result.
Its funny, I agree with you, man likely didnt make it to the moon, but this is just silly. Why would the vacuum on the moon be any different than space? It has no atmosphere.
Perhaps some of earths atmosphere extends there, but who the fuck knows. But I cant tell you with a 100% certainty, it aint gonna get anymore sucky then space.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers to pull the air bubbles that are stuck in the solution out for a much better result.
Its funny, I agree with you, man likely didnt make it to the moon, but this is just silly. Why would the vacuum on the moon be any different than space? It has no atmosphere.
Perhaps some of earths atmosphere extends there, but who the fuck knows. But I cant tell you with a 100% certainty, it aint gonna get anymore sucky then it already is.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers to pull the air bubbles that are stuck in the solution out for a much better result.
Its funny, I agree with you, man likely didnt make it to the moon, but this is just silly. Why would the vacuum on the moon be any different than space? It has no atmosphere.
Perhaps some of earths atmosphere extends there, but who the fuck knows.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. A pop bottle would likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers to pull the air bubbles that are stuck in the solution out for a much better result.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. Plastic likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
People, like artists, who use alot of epoxy use vacuum chambers to pull the air bubbles that are stuck in the solution out for a much better result.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. Plastic likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out of.
Do you get it yet?
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacuum box. Plastic likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
What your talking about, with pulling the gasses out, they do that in a vacuum environment, there is nothing containing the air inside whatever it is they are trying to pull it out off.
Do you get it yet?
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacumn box. Plastic likely being strong enough to contain the 100kpa required.
I know, its like precollege level science type stuff, its not meant to be easy.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacumn box. Plastic likely being strong enough to contain the 100kpa required.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.
Im betting this can be easily replicated with a plastic bottle in a vacumn box. Plastic likely being strong enough to contain the 1kpa required.
Oh boy, your really a stubborn one arent you ^^.
Outer space, commonly referred to simply as space, is the expanse that exists beyond Earth and its atmosphere and between celestial bodies. Outer space is not completely empty; > it is a near-perfect vacuum[1] containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (−270 °C; −455 °F).[2]
There is nearly zero pressure in space, but if you had a spacecraft with air for humans to live in inside, there would be pressure pushing outwards. This is sometimes referred to as negative 'gauge pressure.' Similarly, in a submarine you have more pressure outside than inside, so it's pushing inwards - positive gauge pressure.
Humans need the pressure to be about one 'atmosphere,' or 101kPA, to survive - more, and you have difficulty breathing, can bruise, or in extreme cases be crushed and die; less, and you can't absorb oxygen, and in extreme cases your blood can form bubbles ('the bends') and you can die.
Deep underwater, because water is heavier than air, there is high pressure, and underwater ships or dive suits need to be engineered to hold up the massive weight of water around them. In space, there is near-zero pressure, so ships (for people) need to be engineered to hold the air in. But they only need to be able to withstand one atmosphere of pressure pushing outwards.
Im sorry bro, but your either a shill, or you need to educate yourself some more :(.