1.0 k-mol of a sample of helium gas is put through the cycle of operations shown in figure. BC is an isothermal process and `p_A=1.00 atm`, `V_A=22.4m^3`, `p_B=2.00atm`. What are `T_A`, `T_B` and `V_C`?

The P - V diagram of 2 gm of helium gas for a certain process A rarr B is shown in the figure. What is the heat given to the gas during the process A rarr B ?

One mole of a perfect gas is put through a cycle consisting of the following three reversible steps: (CA) isothermal compression from 2 atm and 10 litre to 20 atm and 1 litre. (AB) Isobaric expansion to return the gas to the original volume of 10 litre with T going from T_(1) to T_(2) . (BC) Cooling at constnat volume to bring the gas to the original pressure and temperature. the steps are shown schematically in the figure shown. (a) Calculate T_(1) and T_(2) . (b) Calculate DeltaU,q and W in calories, for each step and for the cycle.

0.2moles of an ideal gas, is taken around the cycle abc as shown in the figure. The path b-c is adiabatic process, a-b is isovolumic process and c-a is isobaric process. The temperature at a and b are T_(A)=300K and T_(b)=500K and pressure at a is 1 atmospere. find the volume at c. (Given, gamma=(C_(p))/(C_(v))=(5)/(3),R=8.205xx10^(-2)L /atm/mol-K)

One mole of a monoatomic ideal gas is taken through the cycle ABCDA as shown in the figure. T_A=1000K and 2p_A=3p_B=6p_C [Ass um e(2/3)^0.4=0.85 and R=(25)/(3)JK^-1mol^-1] The temperature at B is

For P-V diagram of a thermodynamic cycle as shown in figure, process BC and DA are isothermal. Which of the corresponding graphs is correct?

A reversible heat engine carries 1 mol of an ideal monatomic gas around the cycle ABCA , as shown in the diagram. The process BC is adiabatic. Call the processes AB, BC and CA as 1,2 and 3 and the heat ( DeltaQ)_(r) , change in internal energy (DeltaU) , and work done ( DeltaW)_(r), r=1,2,3 respectively. The temperature at A,B,C are T_(1)=300K,T_(2)=600K and T_(3)=455K . Indicate the pressure and volume at A,B and C by P_(r) and V_(r), r=1,2,3, respectively. Assume that intially pressure P_(1)=1.00atm. Suppose the gas had been taken along an isothermal process from B instead of along the adiabatic process BC shown, so as to reach the same volume V_(3) , and the total heat Q_(1) is taken during the complete cycle involving the isothermal, while Q_(a) is the total heat taken in the cycle ABCA shown in the diagram. Then

A sample of ideal gas is taken through the cyclic process shown in the figure. The temerauture of the gas in state A is T_(A) =200 K. In states B and C the temperature of the gas is the same. What is the greastes temperature of the gas during the cyclic process ?

One mole of a monoatomic ideal gas is taken through the cycle shown in figure. ArarrB Adiabatic expansion BrarrC Cooling at constant volume CrarrD Adiabatic compression. DrarrA Heating at constant volume The pressure and temperature at A,B etc., are denoted by p_A, T_A, p_B, T_B etc. respectively. Given, T_A=1000K , p_B=(2/3)p_A and p_C=(1/3)p_A . Calculate (a) the work done by the gas in the process ArarrB (b) the heat lost by the gas in the process BrarrC Given, (2/3)^0.4=0.85 and R=8.31J//mol-K