Anyone know how to do this Q? (thermodynamics)

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The discussion focuses on calculating the heat received by 1 mole of an ideal gas in a 300 ml rigid container, which experiences a pressure increase of 550 kPa. The molar heat capacity at constant volume is specified as 12.4705 kJ/kmol-K. To determine the heat received, the ideal gas law can be applied to find the change in temperature, which is essential for further calculations.

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1 mole of an ideal gas is sealed in a 300 ml rigid container. the system undergo heating and a rise in pressure of 550kPa us recorded. Determine the heat received by the system
molar heat capacity at constant volume=12.4705kj/kmol-K
 
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trent123 said:
1 mole of an ideal gas is sealed in a 300 ml rigid container. the system undergo heating and a rise in pressure of 550kPa us recorded. Determine the heat received by the system
molar heat capacity at constant volume=12.4705kj/kmol-K

Welcome to PF, trent123! :smile:

Do you have a couple of relevant equations for this problem?
Perhaps you can use the ideal gas law to calculate the change in temperature?
 
thx anyway my friend answered me
 

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