70 calories of heat required to raise the temperature of 2 moles of an ideal gas at constant pressure from `30^@Cto 35^@C.` The amount of heat required (in calories) to raise the temperature of the same gas through the same range `(30^@C to 35^@C)` at constant volume is:

70 cal of heat is required to raise the temperature of 20 moles of an ideal diatomic gas at constant pressure from 30^@C . The amount of heat required (in cal) to raise the temperature of the same gas through the same range ( 30^@C to 35^@C ) at constant volume is

105 calories of heat is required to raise the temperature of 3 moles of an ideaol gas at constant pressure from 30^(@)C to 35^(@)C. The amount of heat required in calories to raise the temperature of the gas though the range (60 ^(@)C to 65^(@)C) at constant volume is (gamma = (C_(p))/( C_(v)) = 1.4)

105 calories of heat is required to raise the temperature of 3 moles of an ideaol gas at constant pressure from 30^(@)C to 35^(@)C. The amount of heat required in calories to raise the temperature of the gas though the range (60 ^(@)C to 65^(@)C) at constant volume is (gamma = (C_(p))/( C_(v)) = 1.4)

75 calories of heat is required to raise the temperature of 3 moles of an ideal gas at constant pressure from 30^oC to 35^oC . The amount of heat required in calories to raise the temperature of the gas through the range ( 50^oC to 55^ oC ) at constant volume is: (γ= Cv/Cp =1.4)

90 calories of heat is required to raise the temperature of 3 moles of an ideal gas at constant pressure from 30^oC to 35^oC . The amount of heat required in calories to raise the temperature of the gas through the range ( 50^oC to 55^ oC ) at constant volume is: (γ= Cp/Cv =1.4)

70 calories of heat is required to raise the temperature of 2 mole of an ideal gas at constant pressure from 30^@C to 35^@C . The amount of heat required to raise the temperature of the same gas through the same range at constant volume is