N2(g) + O2(g) 2 NO(g) (a) Calculate K, at 25 °C. Is the reaction product- favored at this temperature? (b) Assuming 4,H° and A,S° are nearly constant with temperature, calculate A, G° at 700 °C. Estimate K, from the new value of A,G° at 700 °C. Is the reac- tion product-favored at 700 °C?

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70. A Consider the formation of NO(g) from its elements.
N2(g) + O2 (g) 2 NO(g)
(a) Calculate K, at 25 °C. Is the reaction product-
favored at this temperature?
(b) Assuming 4,H° and A,S° are nearly constant with
temperature, calculate A,G° at 700 °C. Estimate K,
from the new value of A,G° at 700 °C. Is the reac-
tion product-favored at 700 °C?
(c) Using K, at 700 °C, calculate the equilibrium partial
pressures of the three gases if you mix 1.00 bar each
of N, and O,.
Transcribed Image Text:70. A Consider the formation of NO(g) from its elements. N2(g) + O2 (g) 2 NO(g) (a) Calculate K, at 25 °C. Is the reaction product- favored at this temperature? (b) Assuming 4,H° and A,S° are nearly constant with temperature, calculate A,G° at 700 °C. Estimate K, from the new value of A,G° at 700 °C. Is the reac- tion product-favored at 700 °C? (c) Using K, at 700 °C, calculate the equilibrium partial pressures of the three gases if you mix 1.00 bar each of N, and O,.
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