Thermodynamics - monotomic/diatomig gas heat capacity question

In summary, the question asks why a monotomic gas like Helium requires less heat than a diatomic gas like hydrogen to undergo the same temperature increase. The answer may be related to the CP and CV values of the gases as well as the intermolecular forces between their molecules. Additionally, the equipartition theorem may also play a role in understanding the difference in heat capacity between the two types of gases.
  • #1
p.ella
41
0
Thermodynamics -- monotomic/diatomig gas heat capacity question

Homework Statement



GRADE 12 CHEMISTRY: Why would a monotomic gas like Helium require less heat than a diatomic gas like hydrogen to undergo the same temperature increase?


Homework Equations



q=mcΔT


The Attempt at a Solution



I think it has something to do with bonds and rotational/translational/vibrational energy of molecules but don't know exactly help

Thank you everyone!
 
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  • #2
Hello p.ella,

The answer to your question maybe twofold.

First ask yourself this: How do the CP and CV values of helium compare with other gases?

Secondly, What kind of inter-molecular forces act between helium molecules? How do they compare with other gases?
 
  • #3
Sunil Simha said:
Secondly, What kind of inter-molecular forces act between helium molecules? How do they compare with other gases?
Sorry Sunil, but I don't think that intermolecular forces are the right way to go.

p.ella, have you heard of the equipartition theorem?
 
  • #4
DrClaude said:
Sorry Sunil, but I don't think that intermolecular forces are the right way to go.

p.ella, have you heard of the equipartition theorem?

Thanks anways Sunil :)

And no, I haven't, not yet atleast :)
 
  • #5
p.ella said:
And no, I haven't, not yet atleast :)
That makes things a bit more difficult, but let's try it this way.

When heat is put into a monatomic gas, what changes?

If you have a diatomic molecule instead, what more can happen (in addition to what you just answered for the monatomic gas)?
 

Related to Thermodynamics - monotomic/diatomig gas heat capacity question

What is the difference between monatomic and diatomic gases?

Monatomic gases are made up of single atoms, such as helium or argon. Diatomic gases are made up of two atoms bonded together, such as oxygen or nitrogen.

What is heat capacity and why is it important for thermodynamics?

Heat capacity is the amount of heat energy required to raise the temperature of a substance by a certain amount. It is important in thermodynamics because it helps determine how much energy is needed to change the temperature of a system, and can also indicate how well a substance can store or release heat.

How does the heat capacity of a gas change with temperature?

The heat capacity of a gas typically increases with temperature. This is because at higher temperatures, the molecules of the gas have more kinetic energy and can move more freely, allowing them to absorb more heat energy without a significant increase in temperature.

What is the relationship between heat capacity and the number of particles in a gas?

The heat capacity of a gas is directly proportional to the number of particles in the gas. This means that as the number of particles in a gas increases, the heat capacity also increases.

How does the heat capacity of a diatomic gas differ from a monatomic gas?

The heat capacity of a diatomic gas is typically higher than that of a monatomic gas. This is because the diatomic gas has more ways in which its molecules can store heat energy, such as rotational and vibrational energy, in addition to translational energy. This allows diatomic gases to absorb more heat energy without a significant increase in temperature.

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