Explaining Free Energy: A Guide

In summary, the concept of free energy refers to the energy exchanged during a reaction and the resulting change in disorder or entropy. The Gibbs Free Energy (G) is a measure of this change and determines whether a reaction is spontaneous or requires external energy. If G is positive, the reaction is not spontaneous and energy must be added, but if G is negative, the reaction occurs spontaneously. This is why endothermic reactions can still occur, as long as the increase in entropy is greater than the increase in energy. However, even in spontaneous reactions, the total entropy of the system and its surroundings will always increase according to the second law of thermodynamics.
  • #1
Narsi Reddy
1
0
Hello, could someone expalin me the concept of free energy. Please.
 
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  • #2
Do you mean the “Gibbs Free Energy” (G), or just ‘free energy’…like the kind which is impossible?
 
  • #3
I don’t understand “Gibbs Free Energy”
 
  • #4
Whenever a reaction occurs, energy is traded (gained or lost) and the disorder of the system increases or decreases(entropy).

The change in gibbs energy is defined as del(G)=del(H)-Tdel(s). Now, if this quantity is positive, i.e. del(h)>Tdel(s), then that particular reaction is not spontaneous. You will have to provide energy to make it happen.

On the other hand, if del(g) is negative, then the reaction happens spontaneously. You don't need to do anything to make it happen.

This is why endothermic reactions are possible. Even if they absorb energy, (del(H)>0), the increase in entropy (or disorder: del(s)) is great enough so that del(h)<Tdel(s), which results in the change in gibbs free energy being negative. Hence, the reaction proceeds spontaneously. The evaporation of water is an example of this.

Note, however, even if the reaction is feasible, but the entropy of the system decreases, the total entropy (system+surrounding) will always increase for any feasible process, as stated by the second law of thermodynamics.
 

1. What is free energy?

Free energy refers to the energy available to do work in a system. It is the energy that is available to be converted into useful work, such as mechanical, electrical or chemical work.

2. How is free energy different from heat energy?

Free energy is the energy available to do work, while heat energy is the energy that is released or absorbed during a chemical or physical change. Free energy is the energy that can be used to perform useful work, while heat energy is often lost as waste.

3. What is the importance of free energy in biological systems?

In biological systems, free energy is essential for sustaining life. It is used for various processes such as metabolism, growth, and reproduction. Organisms are able to maintain their internal environment by using free energy to carry out these processes.

4. How is free energy related to thermodynamics?

Free energy is directly related to the laws of thermodynamics. The first law states that energy cannot be created or destroyed, only transferred or converted. The second law states that in any energy transfer or conversion, some energy will be lost as heat. Free energy takes into account both of these laws and allows us to calculate the amount of energy available for useful work.

5. What factors affect the amount of free energy in a system?

The amount of free energy in a system is affected by factors such as temperature, pressure, and the concentration of reactants and products. Changes in these factors can alter the balance between the free energy available and the energy required to perform work in a system.

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