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An ideal gas has a specific heat at cons...

An ideal gas has a specific heat at constant pressure `C_P=(5R)/2`. The gas is kept in a closed vessel of volume `0.0083m^3`, at a temperature of 300K and a pressure of `1.6xx10^6 N//m^2`. An amount of `2.49xx10^4` Joules of heat energy is supplied to the gas. Calculate the final temperature and pressure of the gas.

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The correct Answer is:
`675 K , 3.6 xx 10^(6)N//m^(2)`
Number of moles n=`(PV)/(RT) = ((1.6xx 10^(6))(0.0083))/((8.3)(300)) = (16)/(3)`
Heat is supplied at constant volume so `Q = nC_(V)DeltaT`
`implies T_(2) = T_(1) + (Q)/(nC_(V)) = 300 + (2.49 xx 10^(4))/(((16)/(3))((3R)/(2)))`
= `300+375 = 675K`
As `V` = constant So `(P_(2))/(P_(1)) = (T_(2))/(T_(1))`
`implies P_(2) = ((675)/(300))(1.6 xx 10^(6)) = 3.6 xx 10^(6)Nm^(-2)`
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