An ideal gas is taken through the following cyclic process. Process `CD` is isothermal & process `DA` is adiabatic

`{:(,"List-I",,"List-II"),((P),"AB" ,(1),"heat exchanged is positive" ),((Q),"BC" ,(2),"change in temperature is negative"),((R), "DC" ,(3),"coefficient of volume thermal expansion is undefined"), ((S),"DC" ,(4),Adiabatic compressibility is positive):}`

Match the List - I with List - II {:(,"List - I",,"List - II"),((P),"van Arkel method",(1),"Purification of copper"),((Q),"Poling",(2),"Refining of silver"),((R),"Cupellation",(3),"Manufacture of "Na_(2)CO_(3)),((S),"Solvay process",(4),"Purification of titanium"):}

An ideal gas expands from V to 2V in 4 separate processes. Where process 1 is isothermal process 2 is adiabatic, process 3 is free expansion and process 4 is isobaric. If E_(1),E_(2),E_(3) and E_(4) are the changes in average kinetic energy of the molecules in the isothermal, adiabatic free expansion and isobaric process respectively then choose the correct options.

n moles of a monoatomic gas undergoes a cyclic process ABCDA as shown. Process AB is isobaric, process BC is adiabatic process CD is isochoric and process DA is isothermal the maximum temperature and minimum temperature in cycle are 4T_(0) and T_(0) respectively. Then:

Match the following {:(,"Column-I",,"Column-II"),((A),"Isothermal process",(p),"Temperature changes"),((B),"Isobaric process",(q),"Pressure changes"),((C),"Isochoric process",(r),"Volume change"),((D),"Cyclic process",(s),"Initial and final states are same"):}

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 gs in these three processes then

The graph shown below is a graph between work done on the gas versus heat supplied to it. Different lines OA, OB, OC, OD represent different processes on monoatomic gas or a diatomic gas. Match the correct process with the line. {:("List I",,"List II"),("P. OA",,"1. Adiabatic Process"),("Q. OB",,"2. Isobaric process for monoatomic gas"),("R. OC",,"3. Isothermal process"),("S. OD",,"4.Isobaric process for diatomic gas"):}

An ideal gas undergoes a cyclic process, in which one process is isochoric, one process is isothermal and one process is adiabatic. During the isothermal process, 40 J heat is released by the gas, and during the isochoric process, 80 J heat is absorbed by the gas. if work done by the gas during adiabatic process is W_(1) and during isothermal process is W_(2) then the magnitude of (W_(1))/(W_(2)) will be equal to: