What is the boiling point of blood at low air pressure?

AI Thread Summary
The discussion centers on the effects of air pressure on the boiling point of blood and the physics of acceleration due to atmospheric pressure. It is noted that a body with a surface area of 1m² experiences significant force from air pressure, potentially leading to extreme acceleration if that pressure were suddenly removed. The boiling point of blood, primarily composed of water, is influenced by pressure, with blood boiling at approximately 29°C at low pressures around 0.04 bars. If atmospheric pressure were to vanish, the consequences would be dire, including boiling blood and collapsed lungs. Overall, the relationship between pressure and boiling point is crucial in understanding the physical implications of sudden changes in atmospheric conditions.
BigMacnFries
I have read that air pressure is about 100,000 pascalls
which = 100,000 Newtons/m2
which is enough to accelarate a 1kg body with a surface area of 1m2 to 100,000 m/s in one second
which is enough to accelarate a 100kg body with a surface area of 1m2 to 1000m/s in one second.
Is this right. Since i am about 100kg and have a front body surface of about 1m2 is it true that if the air pressure on my back suddenly dissaperaed I would be 1km that way in a little over a second?
 
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An object with a one-meter-squared side experiences a little over a hundred thousand Newtons of force, over that area, due to atmospheric air pressure.

If there were absolutely no opposing forces, such an object with a mass of only 1 kg would experience an acceleration of a little over 100,000 m/s^2.

Of course, it would be quite a feat to arrange a system in which the pressure did not change at all as the object were accelerated. Consider a potato gun or pneumatic rifle. As the projectile begins moving, the cavity behind it gets larger, and the pressure in that cavity is reduced. When fired with atmospheric pressure into a vacuum, the projectile would experience that 100,000 m/s^2 acceleration only instantaneously at the beginning of its movement; at all later times the acceleration would be much less.

Anecdotally, air pressure can store very large amounts of energy. A scuba tank exploding inside a dive shop, for example, can pretty much destroy the whole shop.

- Warren
 
chroot said:
Anecdotally, air pressure can store very large amounts of energy. A scuba tank exploding inside a dive shop, for example, can pretty much destroy the whole shop. [emphasis added]
"Anecdotally"? Did you really think we could let that go without expansion (pun weak, but intended)?
 
You would not want to be in your body if the Earth suddenly lost its measly 15 psi atmosphere. Your blood would boil, lungs collapse... and it gets ugly after that.
 
Why would my blood boil etc?
 
Boiling point is dependent on pressure.

Blood is mostly water.

The saturation temperature of water at 0.04 bars (1 atm = 1.01325 bar = 14.696 psia) is 29.0°C (84.1°F). So if the temperature of blood is about 98.6°F (37°C), the blood would boil at 0.04 bar, which is still greater than vacuum (<<0.01 bar).
 

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