Anyone know how to do this Q? (thermodynamics)

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To determine the heat received by the system, the ideal gas law can be applied to calculate the change in temperature resulting from the recorded pressure increase of 550 kPa in the sealed 300 ml container. Given that the molar heat capacity at constant volume is 12.4705 kJ/kmol-K, the heat received can be calculated using the formula Q = n * Cv * ΔT, where Q is the heat, n is the number of moles, Cv is the molar heat capacity, and ΔT is the change in temperature. The discussion emphasizes the importance of using the ideal gas law to find the temperature change necessary for calculating the heat transfer in this scenario.
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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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