Consider the dnbalanced gas-phase equilibrium system below at 25°C. AH =-173 kJ The enthalpy change above is calculated when the reaction is balanced using smallest, whole-number coefficients. The box below represents a 2.0-liter container of this system at equilibrium, where temperature is 25°C. Each molecule in the drawing represents one mole of each substance. 2.0 L Diagrams 1-IV represent the same system at 25° C containing various concentrations of its components. III. I1 - 12 M 52M 181-M 181-5SM - 12 M I- 129 M II. 1 IV. I - 12 M 23 M 181- 33M 181- 1OM T 1- 12 M For which does AG O at 25°C? %3D

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Consider the dnbalanced gas-phase equilibrium system below at 25°C. AH = -173 kJ The enthalpy change above is calculated when the reaction is balanced using smallest, whole-number coefficients. The box below represents a 2.0-liter container of this system at equilibrium, where temperature is 25°C. Each molecule in the drawing represents one mole of each substance. 2.0 L Diagrams 1-IV represent the same system at 25° C containing various concentrations of its components. I [) - 12 M III. (1 52M [ 1- 33M 18)- 55M - 12 M I- 129 M II. [ - 12 M IV. I1 - 23 M 181-33M 181- 10M 10 1- 12 M 1 I- 25 M For which does AG = 0 at 25°C?

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Which is the K value for the following equilibrium process? [0 Which describes the positively charged product? O conjugate acid O amphoteric O adduct O conjugate base