Energy required to heat a house with insulated walls

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To calculate the energy required to heat a house with well-insulated walls containing 100m3 of air at 300K by 2 degrees Celsius, the heat capacity at constant pressure (Cp) is given as 7R/2. The main challenge is determining the number of moles of air, which can be found using the ideal gas law (PV=nRT), assuming standard atmospheric pressure. The constant R is a known value that can be looked up, and the initial temperature is correctly identified as 300K. The formula for change in energy involves multiplying the heat capacity, temperature change, and the number of moles. The final energy requirement can be calculated once the number of moles is established.
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I have an problem that can not solve, any help would greatly appreciated.

A house has well-insulated walls.It contains a volume of 100m3 of air at 300K. Calculate the energy required to increase the temperature of this diatomic gas by 2 degree celsius. Assume it is heating at constant pressure and use Cp=7R/2.
 
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What's stopping YOU from solving it? You've got a heat capacity, you've got a temp difference. What more could you want? Oh, yeah, maybe the number of moles?
 
Thanks Dick, that's problem I couldn't solve for the number of moles. I know the formula

PV=nRT, the problem here, how can I find P & R? P is constant? T is 275 right? or Delta T is 275, make me confuse... the answer is:118KJ,236KJ,354KJ,472KJ
I don't get any the right one. please help
 
They are talking about a 'house'. I think you can assume the pressure is 1 atmosphere. You don't 'find' R. It's a constant. You look it up. The problem you quoted says T=300K.
 
Hi Dick,

I wonder "Calculate the energy required to increase the temperature of this diatomic gas by 2 degree celsius. Assume it is heating at constant pressure and use Cp=7R/2."

They asked for the energy required to increase the temperature of this diatomis gas by 2 degree celsius. I got stuck in here.
 
(Change in energy)=(Heat capacity)*(change in temperature)*(amount of stuff). You are already given two quantities on the right side - you just need to find the amount of stuff. Number of moles, remember?
 
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