Specific Heat Capacity & Temperature

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Homework Help Overview

The discussion revolves around the concept of specific heat capacity and its relationship with temperature and molecular kinetic energy. Participants explore how energy input into a material is distributed between kinetic energy and other forms of energy, questioning the reasons behind varying specific heat capacities among different substances.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants discuss the relationship between energy input and molecular motion, questioning how energy distribution affects temperature changes in different materials. They explore the idea that specific heat capacity may depend on how energy is stored beyond just kinetic energy.

Discussion Status

The discussion is ongoing, with participants providing insights into the factors influencing specific heat capacity. Some guidance has been offered regarding the role of molecular vibrations and energy distribution, but multiple interpretations and questions remain open for exploration.

Contextual Notes

Participants are considering the implications of energy distribution in solids and the definitions of temperature in relation to kinetic energy. There is an acknowledgment of the complexity of energy forms beyond translational kinetic energy.

Christopher M
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This is not a homework question, just a question about physics that seems too basic to post in the main physics discussion forum. Please let me know if it is misplaced.

Temperature is average molecular kinetic energy. Is it therefore correct to say that a material's specific heat capacity depends entirely on the following question: when you put energy into the material, how does it divide that energy up between, on the one hand, kinetic energy of molecules, and on the other hand, other forms of energy?

In other words, is the reason that different substances have different specific heat capacities simply that some substances, when they take in energy, store it in forms other than molecular kinetic energy?

Thanks.
 
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Welcome to PF!

Christopher M said:
Temperature is average molecular kinetic energy. Is it therefore correct to say that a material's specific heat capacity depends entirely on the following question: when you put energy into the material, how does it divide that energy up between, on the one hand, kinetic energy of molecules, and on the other hand, other forms of energy?

In other words, is the reason that different substances have different specific heat capacities simply that some substances, when they take in energy, store it in forms other than molecular kinetic energy?

Hi Christopher! Welcome to PF! :smile:

If we're talking about a solid, I've always assumed that the different specific heat capacities are because the molecules vibrate back and forth differently because they're more or less strongly bound.

I don't see what other forms (than kinetic energy) the energy could go into. :confused:
 


Thanks for the response!

But if energy goes into making the molecules vibrate back and forth more energetically, doesn't that increase temperature (since temperature is average kinetic energy)?

In other words, if all the energy goes into kinetic energy -- and temperature is average kinetic energy -- how could the same amount of energy cause the temperature of different materials to rise by different amounts?
 
Christopher M said:
Thanks for the response!

But if energy goes into making the molecules vibrate back and forth more energetically, doesn't that increase temperature (since temperature is average kinetic energy)?

In other words, if all the energy goes into kinetic energy -- and temperature is average kinetic energy -- how could the same amount of energy cause the temperature of different materials to rise by different amounts?

Hi Christopher! :smile:

Because only the translational vibrations determine the temperature (vie the Boltzmann equation), but a lot of the energy goes into rotational and other internal modes. For more detail, see wikipedia:

http://en.wikipedia.org/wiki/Thermo...ernal_motions_of_molecules_and_specific_heat" :smile:
 
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