2 SO₂(g) 2 SO₂(g) + O₂(9) Using data from Appendix C of your textbook calculate the temperature, To, at which this reaction will be at equilibrium under standard conditions (AG°= 0) and choose whether A>Gº will increase, decrease, or not change with increasing temperature from the pulldown menu. To" x K, and AG will decrease For each of the temperatures listed below calculate AG for the reaction above, and select from the pulldown menu whether the reaction under standard conditions will be spontaneous, nonspontaneous, or near equilibrium ("near equilibrium" means that T is within 5 K of To). (a) At T 1556 K AGº = (b) At T = 1037 K AG° = with increasing temperature. (c) At T 519 K AGº x kJ/mol, and the reaction is spontaneous x kJ/mol, and the reaction is near equilibrium Ⓒ X kJ/mol, and the reaction is nonspontaneous O under standard conditions. under standard conditions. under standard conditions.

Give typed explanation of all three subparts not a single word hand written otherwise leave it 

Transcribed Image Text:

Consider the following gas-phase reaction: 2 SO3(g) 2 SO₂(g) + O₂(9) Using data from Appendix C of your textbook calculate the temperature, To, at which this reaction will be at equilibrium under standard conditions (AG° = 0) and choose whether A>Gº will increase, decrease, or not change with increasing temperature from the pulldown menu. To" x K, and AG will decrease For each of the temperatures listed below calculate AG° for the reaction above, and select from the pulldown menu whether the reaction under standard conditions will be spontaneous, nonspontaneous, or near equilibrium ("near equilibrium" means that T is within 5 K of To). (a) At T = 1556 K AGº (b) At T = 1037 K AG° = with increasing temperature. (c) At T = 519 K AG° = x kJ/mol, and the reaction is spontaneous X kJ/mol, and the reaction is near equilibrium under standard conditions. under standard conditions. x kJ/mol, and the reaction is nonspontaneous ✔✔ under standard conditions.