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Helmholtz Free Energy and Gibbs Free Energy - CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET PDF Download

Helmholtz Free Energy

Four quantities called "thermodynamic potentials" are useful in the chemical thermodynamics of reactions and non-cyclic processes. They are internal energy, the enthalpy, the Helmholtz free energy and the Gibbs free energy. The Helmholtz free energy F is defined by

Helmholtz Free Energy and Gibbs Free Energy - CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

The internal energy U might be thought of as the energy required to create a system in the absence of changes in temperature or volume. But if the system is created in an environment of temperature T, then some of the energy can be obtained by spontaneous heat transfer from the environment to the system. The amount of this spontaneous energy transfer is TS where S is the final entropy of the system. In that case, you don't have to put in as much energy. Note that if a more disordered (higher entropy) final state is created, less work is required to create the system. The Helmholtz free energy is then a measure of the amount of energy you have to put in to create a system once the spontaneous energy transfer to the sytem from the environment is accounted for.

The four thermodynamic potentials are related by offsets of the "energy from the environment" term TS and the "expansion work" term PV. A mnemonic diagram suggested by Schroeder can help you keep track of the relationships between the four thermodynamic potentials.

Helmholtz Free Energy and Gibbs Free Energy - CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

 

Gibbs Free Energy

Four quantities called "thermodynamic potentials" are useful in the chemical thermodynamics of reactions and non-cyclic processes. They are internal energy, the enthalpy, the Helmholtz free energy and the Gibbs free energy. The Gibbs free energy G is defined by

Helmholtz Free Energy and Gibbs Free Energy - CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

The internal energy U might be thought of as the energy required to create a system in the absence of changes in temperature or volume. But as discussed in defining enthalpy, an additional amount of work PV must be done if the system is created from a very small volume in order to "create room" for the system. As discussed in defining the Helmholtz free energy, an environment at constant temperature T will contribute an amount TS to the system, reducing the overall investment necessary for creating the system. This net energy contribution for a system created in environment temperature T from a negligible initial volume is the Gibbs free energy.

The change in Gibbs free energy, ΔG, in a reaction is a very useful parameter. It can be thought of as the maximum amount of work obtainable from a reaction. For example, in the oxidation of glucose, the change in Gibbs free energy is ΔG = 686 kcal = 2870 kJ. This reaction is the main energy reaction in living cells.

The document Helmholtz Free Energy and Gibbs Free Energy - CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET is a part of the Physics Course Physics for IIT JAM, UGC - NET, CSIR NET.
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FAQs on Helmholtz Free Energy and Gibbs Free Energy - CSIR-NET Physical Sciences - Physics for IIT JAM, UGC - NET, CSIR NET

1. What is the Helmholtz Free Energy?
Ans. The Helmholtz Free Energy is a thermodynamic potential that quantifies the maximum work that can be extracted from a system at constant temperature and volume. It is denoted by the symbol F and is defined as F = U - TS, where U represents the internal energy, T is the temperature, and S is the entropy of the system.
2. What is the Gibbs Free Energy?
Ans. The Gibbs Free Energy is another thermodynamic potential that determines the maximum non-expansion work that can be obtained from a system at constant temperature and pressure. It is denoted by the symbol G and is defined as G = H - TS, where H represents the enthalpy, T is the temperature, and S is the entropy of the system.
3. How are Helmholtz Free Energy and Gibbs Free Energy related?
Ans. Helmholtz Free Energy (F) and Gibbs Free Energy (G) are related through the equation G = F + PV, where P is the pressure and V is the volume of the system. This equation shows that the Gibbs Free Energy takes into account the additional work done by the system due to its volume, while the Helmholtz Free Energy only considers the work done at constant volume.
4. What is the significance of Helmholtz Free Energy and Gibbs Free Energy?
Ans. The Helmholtz Free Energy and Gibbs Free Energy are both important thermodynamic potentials that provide valuable information about a system's ability to do work. The Helmholtz Free Energy is particularly useful in processes at constant volume, while the Gibbs Free Energy is more applicable to processes at constant pressure. These potentials help in understanding and predicting the spontaneity, stability, and equilibrium of chemical and physical processes.
5. How are Helmholtz Free Energy and Gibbs Free Energy used in practical applications?
Ans. Helmholtz Free Energy and Gibbs Free Energy find applications in various fields, including chemistry, physics, and engineering. They are used to study and analyze phase transitions, chemical reactions, and the behavior of materials under different conditions. These potentials also play a crucial role in predicting and understanding thermodynamic equilibrium, as well as in the design and optimization of energy conversion systems such as fuel cells and batteries.
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