An ideal gas may expands from V(0) to 2V...

An ideal gas may expands from `V_(0)` to `2V_(0)` according to following three processes. Molar specific heat for processes `b` will be

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A gas is expanded form volume V_(0) to 2V_(0) under three different processes as shown in the figure . Process 1 is isobaric process process 2 is isothermal and and process 3 is adiabatic . Let DeltaU_(1),DeltaU_(2) and DeltaU_(3) be the change in internal energy of the gas in these three processes then

One mole of an ideal gas at 300 K expands from V to 2V volume, then work done W in this process will be …

An ideal gas expands from volume V _(1) to V _(2). This may be achieved by either of the three processes : Delta U be the change in internal energy of the gas, Q be the quantity of heat added to the system and W be the work done by the system on the gas. Identify which of the following statements is false for Delta U ?

A gas is expanded from volume V_(0) = 2V_(0) under three different processes. Process 1 is isobaric process, process 2 is isothermal and process 3 is adiabatic. Let DeltaU_(1), DeltaU_(2) and DeltaU_(3) be the change in internal energy of the gas in these three processes. then

With same initial conditions , an ideal gas expands from volume V_(1)" to "V_(2) in three different ways . The work done by the gas is W_(1) if the process is isothermal , W_(2) if isobaric and W_(3) if adiabatic , then

An ideal gas may expands from `V_(0)` to `2V_(0)` according to following three processes. Molar specific heat for processes `b` will be

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