In a spontaneous reaction, which combination of ∆H and ∆S is possible at higher temperatures?

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Prepare for the MCAT General Chemistry with flashcards and multiple choice questions. Each question includes detailed hints and explanations to enhance your understanding. Get ready to ace your MCAT exam!

Multiple Choice

In a spontaneous reaction, which combination of ∆H and ∆S is possible at higher temperatures?

Explanation:
In a spontaneous reaction, the Gibbs free energy change (∆G) must be negative. The relationship between ∆G, enthalpy change (∆H), and entropy change (∆S) is expressed by the equation: ∆G = ∆H - T∆S Here, T represents the temperature in Kelvin. For a reaction to be spontaneous, ∆G must be less than zero, which can be represented as: 0 > ∆H - T∆S or T∆S > ∆H. To analyze the scenario of higher temperatures, we can consider the different combinations of ∆H and ∆S: 1. When both ∆H and ∆S are positive (+∆H and +∆S), as temperature increases, the positive T∆S term will eventually dominate the equation only if T is sufficiently large. However, depending on the magnitude of ∆H compared to T∆S, this combination may or may not lead to spontaneity. 2. When both ∆H and ∆S are negative (-∆H and -∆S), the reaction becomes less likely to be spontaneous at higher temperatures because increased temperature could make T∆S even more negative, hence making ∆G

In a spontaneous reaction, the Gibbs free energy change (∆G) must be negative. The relationship between ∆G, enthalpy change (∆H), and entropy change (∆S) is expressed by the equation:

∆G = ∆H - T∆S

Here, T represents the temperature in Kelvin. For a reaction to be spontaneous, ∆G must be less than zero, which can be represented as:

0 > ∆H - T∆S

or

T∆S > ∆H.

To analyze the scenario of higher temperatures, we can consider the different combinations of ∆H and ∆S:

  1. When both ∆H and ∆S are positive (+∆H and +∆S), as temperature increases, the positive T∆S term will eventually dominate the equation only if T is sufficiently large. However, depending on the magnitude of ∆H compared to T∆S, this combination may or may not lead to spontaneity.

  2. When both ∆H and ∆S are negative (-∆H and -∆S), the reaction becomes less likely to be spontaneous at higher temperatures because increased temperature could make T∆S even more negative, hence making ∆G

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