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If H and S have the same sign, the temperature will determine spontaneity.

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How will temperature affect the spontaneity of reaction with positive H and S?

A high temperature will make it spontaneous.


How can the spontaneity of a reaction be reversed?

The spontaneity of a reaction can be reversed by changing the conditions such as temperature, pressure, or concentration of reactants, or by adding a catalyst.


How does temperature affect the spontaneity of a reaction?

Increasing the temperature makes a reaction spontaneous in some situations.


How is temperature affect the spontaneity of a reaction with positive H and S?

∆G = ∆H - T∆S and ∆G has to be negative for the reaction to be spontaneous. So, ultimately the effect of temperature will depend on the value of ∆H. If ∆H is negative, and ∆S is positive, then temperature won't matter, and reaction will be spontaneous. If ∆H is positive, and ∆S is positive, then a high temperature will favor spontaneity. If ∆H is negative and ∆S is negative, then a low temperature will favor spontaneity. So, the answer to your question is the higher the temperature the more likely the reaction will occur spontaneously.


Is an exothermic reaction always spontaneous?

No, an exothermic reaction is not always spontaneous. The spontaneity of a reaction depends on factors such as temperature, pressure, and the entropy change of the system.

Related Questions

How will the temperature affect the spontaneity of a reaction with positive h and s?

A high temperature will make it spontaneous.


How will temperature affect the spontaneity of reaction with positive H and S?

A high temperature will make it spontaneous.


How can the spontaneity of a reaction be reversed?

The spontaneity of a reaction can be reversed by changing the conditions such as temperature, pressure, or concentration of reactants, or by adding a catalyst.


How will temperature affect the spontaneity of a reaction with positive triangle H and triangle S?

For a reaction with a positive enthalpy change (ΔH > 0) and a positive entropy change (ΔS > 0), the spontaneity is influenced by temperature through the Gibbs free energy equation: ΔG = ΔH - TΔS. As temperature increases, the TΔS term becomes larger, which can make ΔG more negative, thereby favoring spontaneity. Therefore, at higher temperatures, the reaction is more likely to be spontaneous, while at lower temperatures, it may not be spontaneous.


How will temperature affect the spontaneity of a reaction positive delta h and delta s?

∆G = ∆H - T∆S and for it to be spontaneous, ∆G should be negative. If both ∆H and ∆S are positive, in order to get a negative ∆H, the temperature needs to be elevated in order to make the ∆S term greater than the ∆H term. So, I guess the answer would be "the higher the temperature, the more likely will be the spontaneity of the reaction."


How does temperature affect the spontaneity of a reaction?

Increasing the temperature makes a reaction spontaneous in some situations.


Is spontaneity a wotd?

Yes. It is correct to say that spontaneity is a wotd.


What is a sentence with spontaneity?

The spontaneity of their decision to take a last-minute road trip brought excitement and adventure to their weekend.


What is a simple sentence with spontaneity?

Example sentence - I appreciate spontaneity.


Why is spontaneity important to a performance?

It depends on the performance. There is very little spontaneity in a ballet.


How is temperature affect the spontaneity of a reaction with positive H and S?

∆G = ∆H - T∆S and ∆G has to be negative for the reaction to be spontaneous. So, ultimately the effect of temperature will depend on the value of ∆H. If ∆H is negative, and ∆S is positive, then temperature won't matter, and reaction will be spontaneous. If ∆H is positive, and ∆S is positive, then a high temperature will favor spontaneity. If ∆H is negative and ∆S is negative, then a low temperature will favor spontaneity. So, the answer to your question is the higher the temperature the more likely the reaction will occur spontaneously.


How can improvisation help with generating spontaneity?

Improvisation is, by definition, spontaneous. Practicing it makes spontaneity better.