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The Driving Forces of Reactions. In chemistry we are concerned with whether a reaction will occur spontaneously, and under what conditions will it occur.

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Presentation on theme: "The Driving Forces of Reactions. In chemistry we are concerned with whether a reaction will occur spontaneously, and under what conditions will it occur."— Presentation transcript:

1 The Driving Forces of Reactions

2 In chemistry we are concerned with whether a reaction will occur spontaneously, and under what conditions will it occur spontaneously. In chemistry we are concerned with whether a reaction will occur spontaneously, and under what conditions will it occur spontaneously. Spontaneous reactions are reactions that naturally favor the products at specific conditions. They also release free energy (the energy available to do work) Spontaneous reactions are reactions that naturally favor the products at specific conditions. They also release free energy (the energy available to do work) Non-Spontaneous reactions are ones that do not favor the products and do not release free energy, they use it! Non-Spontaneous reactions are ones that do not favor the products and do not release free energy, they use it!

3 Free Energy Free Energy is given the symbol “G” and we look at the change in free energy (ΔG) in a reaction to determine if it is spontaneous or not. Free Energy is given the symbol “G” and we look at the change in free energy (ΔG) in a reaction to determine if it is spontaneous or not. A positive ΔG means the reaction is not spontaneous and a negative ΔG means the reaction is spontaneous. A positive ΔG means the reaction is not spontaneous and a negative ΔG means the reaction is spontaneous. The change in free energy, ΔG, is determine by the Gibbs Free Energy Equation The change in free energy, ΔG, is determine by the Gibbs Free Energy Equation ΔG = ΔH - TΔS ΔG = ΔH - TΔS T = Temperature in Kelvin

4 ENTHALPY ΔH represents the change in enthalpy for the reaction. ΔH represents the change in enthalpy for the reaction. (remember: +ΔH is endothermic and (remember: +ΔH is endothermic and -ΔH is exothermic.) -ΔH is exothermic.) Most reactions are exothermic because there is a natural tendency in nature to move to a lower energy state, and that is what happens in an exothermic reaction (think about the potential energy diagrams!) Most reactions are exothermic because there is a natural tendency in nature to move to a lower energy state, and that is what happens in an exothermic reaction (think about the potential energy diagrams!)

5 ENTROPY ΔS represents the change in entropy (S) ΔS represents the change in entropy (S) Entropy is the measure of the degree of randomness in a system. Gases have higher entropy than a liquid or solid, because the particles have less order. Entropy is the measure of the degree of randomness in a system. Gases have higher entropy than a liquid or solid, because the particles have less order. There is a tendency in nature to proceed in the direction that increases entropy (to get more random). There is a tendency in nature to proceed in the direction that increases entropy (to get more random).

6 Entropy +ΔS means there is an increase in entropy for a reaction +ΔS means there is an increase in entropy for a reaction ( liquid  gas) gets more random. –ΔS means there is a decrease in entropy for a reaction. –ΔS means there is a decrease in entropy for a reaction. ( a liquid  solid) gets more ordered

7 Gibbs free energy equation We use the Gibbs free energy equation to determine that ΔG for a reaction if we know the enthalpy change, the entropy change and the temperature (in Kelvin). We use the Gibbs free energy equation to determine that ΔG for a reaction if we know the enthalpy change, the entropy change and the temperature (in Kelvin). This will tell us if a reaction will be spontaneous at that temperature. (you look at the sign (+ or -) on the answer for ΔG) This will tell us if a reaction will be spontaneous at that temperature. (you look at the sign (+ or -) on the answer for ΔG) - ΔG = spontaneous - ΔG = spontaneous + ΔG = non-spontaneous + ΔG = non-spontaneous

8 ΔG = ΔH - TΔS ΔHΔSΔG -+- Always Spontaneous +-+ Never Spontaneous -- Depends on Temperature Spontaneous at Low Temps ++ Depends on Temperature Spontaneous at High Temps

9 H 2 O(s) = H 2 O(l) Is Enthalpy (+) or (-)? Is Enthalpy (+) or (-)?  (+) because it is an endothermic change Is Entropy Increasing or Decreasing? Is Entropy Increasing or Decreasing?  Increasing  ∆S = (+)  Is the reaction Spontaneous?  Depends on Temperature.  Spontaneous, ∆G = (-), at High Temps.  Heat is required to melt Ice.  If you are at the right temperature, it will spontaneously melt.

10 H 2 SO 4 = 2H + + SO 4 2- + Heat Is ∆H (+) or (-)? Is ∆H (+) or (-)?  (-) because it is exothermic Is ∆S (+) or (-)? Is ∆S (+) or (-)?  (+) because entropy is increasing, more particles are more random!  Is the reaction spontaneous?  Yes, it is always spontaneous.  The universe favors lower energy and higher entropy!


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