Calculate `DeltaU and DeltaH` when `10dm^(3)` of helium at NTP is heated in a cylinder to `100^(@)C`, assuming the the gas behaves ideally. `(C_(V)=3//2R)`

Change in enthalpy and change in internal energy are state functions. The value of DeltaH, DeltaU can be determined by using Kirchoff's equation. Calculate DeltaH when 10dm^(3) of helium at NTP is heated in a cylinder to 100^(@)C , assuming that the gas behave ideally.

Change in enthalpy and change in internal energy are state functions. The value of DeltaH, DeltaU can be determined by using Kirchoff's equation. Calculate DeltaH when 10dm^(3) of helium at NTP is heated in a cylinder to 100^(@)C , assuming that the gas behave ideally.

Change in enthalpy when 11.2 dm^3 of He at NTP is heated in a cylinder to 100^@C is

Calculate the values of DeltaU and DeltaH for an ideal gas in terms of C_P and C_V .

Determine the value of DeltaH and DeltaU for the reversible isothermal evaporation of 90.0g of water at 100^(@)C .Assume that water vapour behaves as an ideal gas and heat of evaporation of water is 540 calg^(-)R = 2.0 cal mol^(-1)K^(-1) .

Calculate DeltaU and DeltaH in calories if one mole of a monoatomic ideal gas is heated at constant pressure of 1 atm from 25^(@)C to 50^(@)C .

Determine the value of DeltaH and DeltaU for the reversible isothermal evaporation of 90.0g of water at 100^(@)C . Assume that water behaves as an ideal gas and heat of evaporation of water is 540 cal g^(-1) (R = 2.0 cal mol^(-1)K^(-1)) .