Enthalpy change equal internal energy change when

For the reaction PCl_(5)(g)toPCl_(3)(g)+Cl_(2)(g) where ΔH and ΔE represents enthalpy change and internal energy change respectively.

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.

How will you find the change in internal energy of a system when it melts ?

If water vapour is assumed to be a perfect gas, molar enthalpy change for vapourisation of 1 mol of water at 1bar and 100^(@)C is 41kJ "mol"^(-1) . Calculate the internal energy change, when 1 mol of water is vapourised at 1 bar pressure and 100^(@)C.

The relationship between enthalpy and internal energy change is

What is internal energy and internal energy change? What is its significance ?

The enthalpy change for chemical reaction is denoted as DeltaH^(Theta) and DeltaH^(Theta) = H_(P)^(Theta) - H_(R)^(Theta) . The relation between enthalpy and internal energy is expressed by equation: DeltaH = DeltaU +DeltanRT where DeltaU = change in internal energy Deltan = change in number of moles, R = gas constant. Enthalpy of the system is given as

The enthalpy change for chemical reaction is denoted aas DeltaH^(Theta) and DeltaH^(Theta) = H_(P)^(Theta) - H_(R)^(Theta) . The relation between enthalpy and internal energy is expressed by equation: DeltaH = DeltaU +DeltanRT where DeltaU = change in internal energy Deltan = change in number of moles, R = gas constant. Which of the following equations corresponds to the definition of enthalpy of formation at 298K ?

If DeltaH is the enthalpy change and DeltaU the change in internal energy accompanying a gaseous reaction, then

If DeltaH is the enthalpy change and DeltaU the change in internal energy accompanying a gaseous reaction, then