An ideal system can be brought from stage A to B through four paths as shown in the figure. The heat energy given to the system is minimum in :

A gas of given mass, is brought from stage A to B along three paths 1, 2 and 3, as shown in the figure. If the amount of work done in these three processes is respectively equal to W_(1), W_(2) and W_(3) , then–

A system is taken through a cyclic process represented by a circle as shown in the figure. The heat absorbed by the system is

Truth table for system of four NAND gates as shown in figure is

When a system is taken from state A to state B along path ACB as shown in figure below, 80 J of heat flows into the system and the system does 30 J of work. When the system is returned from state B to A along the curve path, the work done on the system is 20 J . Does the system absorb or literate heat and by how much ?

One mole of an ideal diatomic gas undergoes a transition from A to B along a path AB as shown in the figure, The change in internal energy of the gas during the transition is :

One mole of an ideal diatomic gas undergoes a transition from A to B along a path AB as shown in the figure The change to internal energy of the gas during the transition is

Truth table for system of four NAND gates as shown in figure is : .

A system of three charges are placed as shown in the figure : If D gt gt d , the potential energy of the system is :