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DeltaH and DeltaS for the reaction: Ag...

`DeltaH` and `DeltaS` for the reaction:
`Ag_(2)O(s) rarr 2Ag(s) +(1//2)O_(2)(g)`
are `30.56 kJ mol^(-1)` and `66.0 J JK^(-1) mol^(-1)` respectively. Calculate the temperature at which free energy change for the reaction will be zero. Predict whether the forward reaction will be favoured above or below this temperature.

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To solve the problem, we need to determine the temperature at which the free energy change (ΔG) for the reaction becomes zero. We will then predict whether the forward reaction is favored above or below this temperature. ### Step-by-Step Solution: 1. **Understand the relationship between ΔG, ΔH, and ΔS**: The Gibbs free energy change (ΔG) is given by the equation: \[ ΔG = ΔH - TΔS ...
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Delta H and Delta S for the reaction, Ag_(2)O(s)to 2A(s)+(1)/(2)O_(2)(g) , are 30.56 kJ mol^(-1) and 66.0 J mol^(-1) respectively. Calculate the temperature at which this reaction will be at equilibrium. Predict whether the forward reaction will be favoured above or below this temperature.

For the reaction Ag_(2)O(s)rarr 2Ag(s)+1//2O_(2)(g) the value of Delta H=30.56 KJ mol^(_1) and Delta S = 66 JK^(-1)mol^(-1) . The temperature at which the free energy change for the reaction will be zero is :-

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For the reaction Ag_(2)O(s)rarr 2Ag(s)+1//2O_(2)(g) , which one of the following is true :

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The enthalpy and entropy change for the reaction, Br_(2)(l)+Cl_(2)(g)rarr2BrCl(g) are 30KJmol^(-1) and 105JK^(-1)mol^(-1) respectively. The temperature at which the reaction will be in equilibrium is:

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CENGAGE CHEMISTRY ENGLISH-THERMODYNAMICS-Archives (Subjective)
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