A monatomic ideal gas of `2 mol` is taken through a cyclic process starting from `A` as shown in figure. The volume ratio are `V_(B)//V_(A)=2` and `V_(D)//V_(A)=4`. If the temperature `T_(A)` at `A` is `27^(@)C`, and gas constant is `R`. Calculate heat absorbed or released by the gas in process `B rarr C`

A monatomic ideal gas of 2 mol is taken through a cyclic process starting from A as shown in figure. The volume ratio are V_(B)//V_(A)=2 and V_(D)//V_(A)=4 . If the temperature T_(A) at A is 27^(@)C , and gas constant is R . Calculate heat absorbed or released by the gas in process C rarr D . h

A monatomic ideal gas of 2 mol is taken through a cyclic process starting from A as shown in figure. The volume ratio are V_(B)//V_(A)=2 and V_(D)//V_(A)=4 . If the temperature T_(A) at A is 27^(@)C , and gas constant is R . Calculate heat absorbed or released by the gas in process A rarr B

A monatomic idea gas of 2 mol is taken through a cyclic process starting from A as shown in figure. The volume ratio are V_(B)//V_(A)=2 and V_(D)//V_(A)=4 . If the temperature T_(A) at A is 27^(@)C , and gas constant is R . Calculate heat absorbed or released by the gas in process D rarr A .

A monatomic idea gas of 2 mol is taken through a cyclic process starting from A as shown in figure. The volume ratio are V_(B)//V_(A)=2 and V_(D)//V_(A)=4 . If the temperature T_(A) at A is 27^(@)C , and gas constant is R . Calculate the temperature of the gas at point B

A monatomic idea gas of 2 mol is taken through a cyclic process starting from A as shown in figure. The volume ratio are V_(B)//V_(A)=2 and V_(D)//V_(A)=4 . If the temperature T_(A) at A is 27^(@)C , and gas constant is R . Calculate. The temperature of the gas at point B

A monatomic idea gas of 2 mol is taken through a cyclic process starting from A as shown in figure. The volume ratio are V_(B)//V_(A)=2 and V_(D)//V_(A)=4 . If the temperature T_(A) at A is 27^(@)C , and gas constant is R . Calculate. The total work done by the gas during the complete cycle.

A monoatomic ideal gas of two moles is taken through a cyclic process starting from A as shown in figure. The volume ratios are (V_(B))/(V_(A))=2 and (V_(D))/(V_(A))=4 . If the temperature T_(A) at A is 27^(@)C , calculate: (a) The temperature of the gas at point B . (b) Heat absorbed or released by the gas in each process. (c) The total work done by the gas during complete cycle.

A mono-atomic ideal gas of two moles is taken through a cyclic process starting from A as shwon in the figure below. The volume ratios are V_(B)//V_(A) = 2 and V_(D)//V_(A) = 4 . If the temperature T_(A) at A is 27^(@)C . Calculate a. The temperature of gas at B . b. Heat absorbed or evolved in each process. c. Total work done in cyclic process.

A mono-atomic ideal gas of two moles is taken through a cyclic process starting from A as shwon in the figure below. The volume ratios are V_(B)//V_(A) = 2 and V_(D)//V_(A) = 4 . If the temperature T_(A) at A is 27^(@)C . Calculate a. The temperature of gas at B . b. Heat absorbed or evolved in each process. c. Total wrok done in cyclic process.

A monoatomic ideal gas of two mole is taken through a cyclic process starting from A as shown V_(B)//V_(A)=2 and V_(D)//V_(A)=4 Temperature T_(A) is 27^(@)C The work done during the process D to A is