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A quantity of ideal gas requires 800 kJ to raise the temperature of the gas by 10.0 K when the gas is maintained at constant volume. The same quantity of gas requires 900 kJ to raise the temperature of
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A quantity of ideal gas requires 800 kJ to raise the temperature of the gas by 10.0 K when the gas is maintained at constant volume. The same quantity of gas requires 900 kJ to raise the temperature of the gas by 10.0 K when the gas is maintained at constant pressure. What is the adiabatic gas constant of this gas

User RaelB
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1 Answer

4 votes

Answer:


\gamma=1.125

Step-by-step explanation:

From the question we are told that:

Initial Heat
Q_1=800kJ

initial Temperature
T_1=10.0K

Final Heat
Q_2=800kJ

Final Temperature
T_2=10.0K

Generally the equation for Adiabatic constant is mathematically given by


\gamma=(Cp)/(Cv)

Since

Equation for Heat
dQ=nCdT

Where


n_1=n_2\\\\T_1=T_2

Therefore


Q_1=Cv\\\\Cv=800

And


Cp=900

Therefore


\gamma=(900)/(800)\\\\\gamma=(9)/(8)


\gamma=1.125

User Jeff Irwin
by
4.4k points
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