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The Maxwell Relation is a thermodynamic equation that relates the partial derivatives of thermodynamic properties with respect to their corresponding variables. It is used to determine the relationship between different thermodynamic properties and to simplify calculations in thermodynamics.
Gibbs Free Energy is a measure of the amount of energy available to do work in a thermodynamic system. In chemical reactions, the change in Gibbs Free Energy determines whether the reaction is spontaneous or not. If the change in Gibbs Free Energy is negative, the reaction is spontaneous and will proceed in the forward direction. If the change in Gibbs Free Energy is positive, the reaction is non-spontaneous and will not occur without external energy input.
Thermal expansion is the change in the size or volume of a substance due to a change in temperature. When a substance is heated, its particles gain energy and move more rapidly, causing the substance to expand. This expansion is directly proportional to the change in temperature, with most substances expanding when heated and contracting when cooled.
Maxwell Relations can be used to determine how different thermodynamic properties are related to each other. By taking partial derivatives of one property with respect to another, we can calculate the change in one property due to a change in another. This allows us to predict the behavior of a system under different conditions and make calculations more efficient.
Gibbs Free Energy is a measure of the energy available to do work in a system. In spontaneous processes, the change in Gibbs Free Energy is negative, meaning that the system is releasing energy and can do work. In non-spontaneous processes, the change in Gibbs Free Energy is positive, meaning that the system requires external energy input to proceed. Therefore, Gibbs Free Energy is directly related to the spontaneity of a process.