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(B) According to the first law of thermodynamics,$\Delta Q = \Delta U + \Delta W$. In an adiabatic process,the heat exchange $\Delta Q = 0$. Therefore

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is compressed adiabatically.

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(B) According to the first law of thermodynamics,$\Delta Q = \Delta U + \Delta W$. In an adiabatic process,the heat exchange $\Delta Q = 0$. Therefore,$0 = \Delta U + \Delta W$,which implies $\Delta U = -\Delta W$. When a gas is compressed,work is done on the gas,so $\Delta W$ is negative. Substituting this into the equation,$\Delta U = -(	ext{negative value})$,which results in a positive $\Delta U$. $A$ positive change in internal energy $(\Delta U > 0)$ means the internal energy of the gas increases.

The internal energy of a gas will increase when it

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