A system can be taken from the initial state `p_(1),V_(1)` to the final state `p_(2,V_(2)` by two different methods, let `DeltaQ and DeltaW` represent the heat given to the system and the work done by the system. Which of the following must be the same in both the method?

Figure shows two processes A and B on a system.Let DeltaQ_(1) and DeltaQ_(2) be the heat given to the system in processes A and B respectively. Then

Refer to figure. Let DeltaU_(1) and DeltaU_(2) be the changes in internal energy in the system in process A+B and DeltaW be the net work done by the system in the process A+B ,

Fig shows a cylindrical tube of volume V with adiabatic walls containing an ideal gas. The internal energy of this ideal gas is given by 1.5nRT. The tube is divided into two equal parts by a fixed diathermic wall. Initially, the pressure and the temperature are p_(1), T_(1) on the left and p_(2), T_(2) on the right. the system is left for sufficient time so that the temperature becomes equal on the two sides. (a) how much work has been done by the gas on the left part ? (b) find the final pressures on the two sides. (c ) find the final equilibrium temperature. (d) how much heat has flown from the gas on the right to the gas on the left ?

consider two processes on a system as shown in fig the volumes in the initial stage are the same in the two processes and the volume in the final stage are also the same.Let DeltaW_(1) and DeltaW_(2) be the work done by the system in the processes A and B respectively.

State which of the following are polynomials and which are not ? Give reasons. p^(-2)+1

A system is taken from state a to state c by two paths adc and abc as shown in the figure. The internal energy at a is U_a= 10 J .Along the path adc the amount of heat absorbed delta Q_1= 50 J and the work obtained delta W_1 = 20 J whereas along the path abc the heat absorbed delta Q_2 =36 J The amount of work along the path abc is : .

An ideal gas passes from one equllibrium state (P_(1) ,V_(1), T_(1), N) to anoter equilibrium state (2P_(1) , 3V_(1), T_(2), N) Then

An adiabatic vessel of total volume V is divided into two equal parts by a conducting separator. The separator is fixed in this position. The part on the left contains one mole of an ideal gas (U=1.5 nRT) and the part on the right contains two moles of the same gas. initially, the pressure on each side is p. the system is left for sufficient time so that a steady state is reached. find (a) the work done by the gas in the left part during the process, (b) the temperature on the two sides in the beginning, (c ) the final common temperature reached by the gases, (d) the heat given to the gas in the right part and (e) the increase in the internal energy of the gas in the left part.

From an equilibrium state A to another equilibrium state A to another equilibrium state B an amount of work equal to 30 J is done on the system .if the gas is taken from state A to B iva a process in which the net heat observe by system is 10 cal , how much is the net work done by the system in the later case. [ Take 1 cal = 4.2 J]