Let `Delta U_(1)` and `Delta U_(2)` be the changes in internal energy of an ideal gas in the processes `A` and `B` then

Does the internal energy of an ideal gas change in an isothermal process? In an adiabatic process?

A reversible heat engine carries 1 mole of an ideal monatomic gas aroung the cycle 1-2-3-1. Process 1-2 takes place at constant volume, process 2-3 take place at constant volume, process 2-3 is adiabatic, and process 3-1 takes place at constant pressure. Complete the values for the heat Delta Q , the change in internal energy Delta U , and the work done Delta , for each of the three processes and for the cycle as a whole.

An ideal gas goes from state A to state B via three different processes as indicated in the P-V diagram. If Q_(1), Q_(2), Q_(3) indicate the heat absorbed by the gas along the three processes and Delta U_(1) , Delta U_(2), Delta U_(3) indicate the change in internal energy along the three processes respectively, then

An ideal gas undergoes an expansion from a state with temperature T_(1) and volume V_(1) through three different polytropic processes A, B and C as shown in the P - V diagram. If |Delta E_(A)|, |Delta E_(B)| and |Delta E_(C )| be the magnitude of changes in internal energy along the three paths respectively, then :

Delta H and Delta U are related as

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 ?

If internal energy of gas is U= 3PV+4 then the gas can be