An enthalpy change (ΔH) in chemistry decribes the heat energy exchange with the surroundings at constant pressure. It can provide a useful guide to the feasibility of a reaction taking place. There are a number of different types of standard enthalpy changes: *[standard enthalpy change of reaction]? *[standard enthalpy change of combustion]? *[standard enthalpy change of formation]? *[standard enthalpy change of neutralisation]? |
H = U + PV
where H indicates enthalpy, U indicates [internal energy]?, and P and V indicate pressure and volume, respectively.
Enthalpy is a useful function for two reasons. First, the expression U + PV occurs often in thermodynamics, and it is convenient to define this quantity. Second, if a process begins and ends at the same pressure, the amount of energy exchanged with the environment as heat is given by the change in the system's enthalpy.
An enthalpy change (ΔH) in chemistry decribes the heat energy exchange with the surroundings at constant pressure. It can provide a useful guide to the feasibility of a reaction taking place.
There are a number of different types of standard enthalpy changes: