Heat Absorption by a Person's Hand from Steam to Liquid

In summary, to calculate the amount of heat absorbed by a person's hand when steam at 100 degrees Celsius is converted to liquid water and then cooled to normal body temperature, one must use the formula Q=m(h2-h1), where Q is the heat absorbed, m is the mass, h2 is the enthalpy of condensed water, and h1 is the enthalpy of saturated vapor. By referring to steam and saturated water pressure tables, one can calculate the change in enthalpy and then multiply it by the mass to determine the total heat absorbed. It is important to note the significant amount of energy involved in condensing and evaporating water, and that the enthalpy of condensed water is a close approximation to the
  • #1
Lovely
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O.K.
HOw much heat is absorbed by a person's hand if steam at 100degree C is first converted to liquid water at 100 degree C and then cooled to normal body temperture?
I'm not sure of the formula for this one.
 
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  • #2
First, you need to know how much steam. Then, you multiply by the heat of vaporization to find how much energy is released in condensing it. Then, you take the specific heat, multiply by the mass and the temperature change to get the energy released in cooling it. Add the two numbers together.
 
  • #3
Set up your energy balance:
Q - W = U2 - U1
Q - W = m(h2 - h1)
Work here is 0, and we are looking for heat absorbed, or Q
Get out your steam tables, and look in the saturated water pressure tables, look at 100 kPa, and 100°C (likewise you can look in the steam tables). So, to first go from saturated vapor to saturated liquid, we go from Hg, to Hf. This difference in enthalpies is roughly 2260 kJ/kg (doing some quick mental math). Then, get to your saturated water temperature tables and find the Hf at whatever body temp is in SI units. Add these two numbers and that is your change in enthalpy. Multiply this by a mass to get your total heat absorbed by the hand.

Note that there is a LOT of energy associated by condensing water and a lot of energy needed to evaporate it.

Note that I also assumed that the enthalpy of condensed water is equal to the saturation enthalpy which is just a close approximation (I believe), but a good one.
 
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Related to Heat Absorption by a Person's Hand from Steam to Liquid

1. How does heat absorption by a person's hand from steam to liquid occur?

Heat absorption by a person's hand from steam to liquid occurs through the process of convection. As the steam comes into contact with the hand, heat is transferred from the steam to the hand through the movement of molecules. This causes the steam to condense into liquid form, releasing heat in the process.

2. Why does a person's hand feel hot when exposed to steam?

A person's hand feels hot when exposed to steam due to the high temperature of the steam and the transfer of heat from the steam to the hand. The skin on our hands is sensitive to changes in temperature, so when it comes into contact with something significantly hotter than our body temperature, we perceive it as being hot.

3. How does the amount of steam affect the heat absorption by a person's hand?

The amount of steam affects the heat absorption by a person's hand because it determines the amount of heat being transferred. A larger amount of steam will have more molecules and therefore more heat to transfer to the hand. This is why a larger volume of steam will feel hotter on the hand compared to a smaller volume.

4. Is there a limit to how much heat a person's hand can absorb from steam?

Yes, there is a limit to how much heat a person's hand can absorb from steam. Our skin has a maximum temperature threshold and can only withstand a certain amount of heat before it becomes damaged. Additionally, our body's natural cooling mechanisms, such as sweating, can only dissipate a certain amount of heat at a time.

5. How does humidity affect heat absorption by a person's hand from steam to liquid?

Humidity can affect heat absorption by a person's hand from steam to liquid in a few ways. Higher humidity levels can make it harder for the steam to condense into liquid, thus reducing the amount of heat transferred to the hand. However, high humidity can also make it feel hotter due to the reduced ability for sweat to evaporate, causing the body to retain more heat.

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