The heat released by the gas is -225 J
Explanation:
First of all, we have to calculate the change in internal energy of the gas, which for a diatomic gas is given by
[tex]\Delta U = \frac{5}{2}nR\Delta T[/tex]
where
n = 0.235 mol is the number of moles
[tex]R=8.314\cdot J/mol K[/tex] is the gas constant
[tex]\Delta T = -88 K[/tex] is the change in temperature
Substituting,
[tex]\Delta U = \frac{5}{2}(0.235)(8.314)(-88)=-430 J[/tex]
Now we can us the 1st law of thermodynamics to find the heat absorbed/released by the gas:
[tex]\Delta U = Q -W[/tex]
where
[tex]\Delta U = -430 J[/tex] is the change in internal energy
Q is the heat
W = 205 J is the heat done by the gas
Solving for Q,
[tex]Q=\Delta U + W = -430 + 205 =-225 J[/tex]
Since the sign is negative, it means the heat has been released by the gas.
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