Can you determine the heat capacity of the calorimeter from this information?

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SUMMARY

The heat capacity of a calorimeter can be determined by measuring the temperature change resulting from the combustion of a known mass of naphthalene. In this case, burning 100 mg of naphthalene, which has a molar mass of 128.18 g/mol, resulted in a temperature rise of 3.5 degrees Celsius. The specific heat of naphthalene is not required for this calculation, as the combustion transforms naphthalene into different products. Instead, one should use the heat of combustion or calorific value of naphthalene to calculate the heat absorbed by the calorimeter.

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Callisto
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Specific heat - calorimetry??

Help from brainy chem person :bugeye:

How do determine the heat capacity of a calorimeter when,

You burn a 100mg of napthalene in it and it's temperature rises by 3.5 degrees C ?

the molar mass of napthalene is 128.18g/mol

Dont i need the specific heat of napthalene?

callisto :blushing:
 
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No, you don't need the specific heat of naphthalene, because once you burn it, it's not naphthalene anymore.

Write and balance the reaction for the combustion of naphthalene. You can then either look up the heat of combustion (or get this from the calorific value of naphthalene) or you can calculate it from the various enthalpies of formation.

Then you can assume that this heat is absorbed entirely by the calorimeter.
 
You should have been provided with specific instructions for this case.
The following may be the case

you'll probably deduce the heat lost in the reaction, through the calorimeter, that is not all of the heat of the reaction goes towards increasing the internal energy of the system. I'm not sure how the reaction was carried out, nevertheless the following reaction may apply

[tex]q_{reaction)=q_{air}+q_{cal}[/tex], q air corresponds to your measured temperature change, just an example.
 

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