Can Humans Survive in Space Without Heat Loss?

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In summary, the conversation discusses the rate of heat loss in a vacuum and how it applies to a human in space. The main points include the role of radiation in heat transfer, the comparison between a human and coffee in a thermos flask, and the factors that determine the rate of heat radiation such as surface area and emissivity. The conversation also touches on the use of a vacuum in thermos flasks to prevent heat loss through conduction and convection.
  • #1
Ptolemy
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A very non specific question about heat loss in a vacuum.

If you threw a human into space (with out worrying about his/her lungs bursting out) is there a rule of thumb about how fast he/she would cool down.

As there is molecules heat transfer can only be through radiation, and assuming he/she is not in the sun's path, there is no radiation adding heat and no molecules hitting him/her to add heat through kinetic energy.

So would they lose heat very quickly or would they be like coffee in a thermos flask and be perfectly insulated in space and only lose heat very slowly.

(This is probably very basic)
 
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  • #2
Heat can be radiated via emission of IR (infrared) radiation. That's how the heat from the sun gets here. IR is an EM radiation, just like visible light, so it requires no medium for transmission.

Zz.
 
  • #3
Yes, I was aware of that and hoped I made that clear when I (mis)wrote
"As there [are no] molecules heat transfer can only be through radiation"

[] represents my poor original writing corrected.

So as an analogy would it be correct to say that the rate of heat loss of coffee in thermos vacuum flask and the rate of heat loss of the same coffee in a sealed container outside of the sun's rays would be roughly the same?

ie, the heat would radiate away very slowly (comparitively) and that this rate would be determined by...? (the propensity of that particular material to produce IR radiation? Is that a fixed physical property?)

Ta
 
  • #4
I guess in the thermos flask on Earth you would also have the coffee being heated by IR radiation from the outside.

Is it possible to estimate the rate of those two heat exchanges?
 
  • #5
The rate at which heat is radiated away is given by the Stephan-Boltzmann Law. If the poor soul floating in space dies, and there is no heat being produced by the metabolism in his/her cells, then the temperature of the person will fall away exponentially, leveling off at about 3K.

The properties that determine the rate of heat radiation are primarily (i) the total surface area, (ii) the emissivity, and to a lesser extent, (iii) the heat capacity, (iv) the geometry of the radiator, and (v) the mean thermal conductivity of the body.
 
  • #6
Thermos flasks are insulated via are vacuum to prevent heat loss due to conduction and convection. Heat can still be lost through radiation, and this is why thermos flasks have a highly reflective interior.

Claude.
 

Related to Can Humans Survive in Space Without Heat Loss?

1. What is radiating heat?

Radiating heat is a form of heat transfer that occurs through electromagnetic waves. It is the process by which heat energy is emitted from a hotter object to a cooler object without the need for any physical contact or medium.

2. How does heat radiate in a vacuum?

In a vacuum, heat can only be transferred through radiation since there is no medium for conduction or convection. This means that objects in a vacuum will either absorb or emit heat through electromagnetic waves.

3. Can heat radiate through all materials?

Yes, heat can radiate through all materials, but some materials are better at absorbing or reflecting heat than others. For example, metals are good conductors of heat and can easily absorb and radiate heat, while insulators such as air and glass are good at trapping heat and preventing it from radiating.

4. Does heat always travel from hot to cold?

Yes, heat always travels from hot to cold in a vacuum. This is because heat transfer occurs from areas of higher energy (hotter objects) to areas of lower energy (colder objects). In a vacuum, heat can only be transferred through radiation, which follows this principle.

5. How does the vacuum of space affect heat radiation?

In the vacuum of space, heat radiation is not affected by air or other particles, so it can travel in all directions without any interference. This means that objects in space can lose heat more quickly through radiation compared to objects on Earth, where conduction and convection can slow down the transfer of heat.

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