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Are spontaneous reactions due to a decrease in entropy?

Are spontaneous reactions due to a decrease in entropy?

Spontaneous Reactions. Reactions are favorable when they result in a decrease in enthalpy and an increase in entropy of the system. When both of these conditions are met, the reaction occurs naturally.

Does enthalpy decrease in a spontaneous reaction?

A spontaneous reaction may involve an increase or decrease in enthalpy, it may involve an increase or decrease in entropy, but it will always involve a decrease in free energy that is a negative ΔG.

When can a spontaneous reaction only occur?

When ΔS > 0 and ΔH > 0, the process will be spontaneous at high temperatures and non-spontaneous at low temperatures. When ΔS < 0 and ΔH < 0, the process will be spontaneous at low temperatures and non-spontaneous at high temperatures.

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What determines if a reaction is spontaneous?

The temperature plays an important role in determining the Gibbs free energy and spontaneity of a reaction. If ΔH is negative, and –TΔS positive, the reaction will be spontaneous at low temperatures (decreasing the magnitude of the entropy term).

What is the relationship between the enthalpy and entropy of a reaction that is always spontaneous?

Generally a reaction will occur spontaneously if the entropy increases, but the enthalpy is also negative, or small and positive, according to Gibbs free energy equation.

How are enthalpy and entropy related?

Explanation: Enthalpy ( H ) is defined as the amount of energy released or absorbed during a chemical reaction. Entropy ( S ) defines the degree of randomness or disorder in a system. Therefore, the free energy expression provides a relationship between enthalpy and entropy.

How would you know if a reaction is spontaneous based on the enthalpy change?

A spontaneous reaction is one that releases free energy, and so the sign of ΔG must be negative. When ΔH is negative and ΔS is positive, the sign of ΔG will always be negative, and the reaction will be spontaneous at all temperatures. This corresponds to both driving forces being in favor of product formation.

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Do spontaneous reactions increase entropy?

These results lead to a profound statement regarding the relation between entropy and spontaneity known as the second law of thermodynamics: all spontaneous changes cause an increase in the entropy of the universe.

How do you determine if a reaction is entropy or enthalpy driven?

Reactions can be ‘driven by enthalpy’ (where a very exothermic reaction (negative ΔH) overcomes a decrease in entropy) or ‘driven by entropy’ where an endothermic reaction occurs because of a highly positive ΔS.

Which reaction would cause a decrease in entropy?

endothermic reaction
In an endothermic reaction, the external entropy (entropy of the surroundings) decreases.

Does entropy increase or decrease in a spontaneous reaction?

All spontaneous physical and chemical changes take place in the direction of a decrease in free energy. A spontaneous reaction may involve an increase or decrease in enthalpy, it may involve an increase or decrease in entropy, but it will always involve a decrease in free energy that is a negative ΔG.

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Can a reaction be endothermic and still be spontaneous?

If a reaction is endothermic, it can still be spontaneous IF the tendency towards maximum entropy is the main driving force for the reaction. If a reaction results in a decrease in the entropy of the system, it can still be spontaneous IF the tendency towards minimum enthalpy is the main driving force for the reaction.

How do you determine whether a reaction is spontaneous or not?

Reactions are driven towards maximum entropy, that is, S products > S reactants, then A reaction is most likely to be spontaneous if it is exothermic AND there is an increase in entropy of the system. Put another way, a reaction is most likely to be spontaneous if ΔH is negative AND ΔS is positive.

What is Gibbs theory of spontaneous reactions?

Gibbs proposed that all spontaneous physical and chemical changes take place in the direction of a decrease in free energy. A spontaneous reaction may involve an increase or decrease in enthalpy, it may involve an increase or decrease in entropy, but it will always involve a decrease in free energy that is a negative ΔG.