The work done on the system when one mile of an ideal gas at 500K is compressed isothermaly and reversibly to 1/10th of its original volume

							
1. Two moles of an ideal gas are compressed isothermally and reversibly at 298 K from ... For an isothermal reversible expansion of an ideal gas, the work is given by w = − nRT ln. V2. V1. #. $. %. &. ' ( . The initial and final volumes are not given. ... P1 = 11.525atm. and. P2 = nRT. V2. = 0.505mol. (. ) 0.08205 L atm mol. –1. K.1. Two moles of an ideal gas are compressed isothermally and reversibly at 298 K from ... For an isothermal reversible expansion of an ideal gas, the work is given by w = − nRT ln. V2. V1. #. $. %. &. ' ( . The initial and final volumes are not given. ... P1 = 11.525atm. and. P2 = nRT. V2. = 0.505mol. (. ) 0.08205 L atm mol. –1. K.1. Two moles of an ideal gas are compressed isothermally and reversibly at 298 K from ... For an isothermal reversible expansion of an ideal gas, the work is given by w = − nRT ln. V2. V1. #. $. %. &. ' ( . The initial and final volumes are not given. ... P1 = 11.525atm. and. P2 = nRT. V2. = 0.505mol. (. ) 0.08205 L atm mol. –1. K.