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19 Nov 2019
At high temperatures, a dynamic equilibrium exists between carbon monoxide, carbon dioxide, and solid carbon. CO_2 (g) + C (s) doubleheadarrow 2CO (g): Delta H degree = 172.5 kJ At 850 degree C, K_c is 0.153. Calculate the value of K_p. If the original reaction system consisted of just 52.6 g of C and 1.50 atm of CO_2 in a 1 L container, what are the pressures of CO_2 and CO when equilibrium is reacted? After equilibrium is reached, how will the equilibrium pressure of CO change if the temperature is decreased.
At high temperatures, a dynamic equilibrium exists between carbon monoxide, carbon dioxide, and solid carbon. CO_2 (g) + C (s) doubleheadarrow 2CO (g): Delta H degree = 172.5 kJ At 850 degree C, K_c is 0.153. Calculate the value of K_p. If the original reaction system consisted of just 52.6 g of C and 1.50 atm of CO_2 in a 1 L container, what are the pressures of CO_2 and CO when equilibrium is reacted? After equilibrium is reached, how will the equilibrium pressure of CO change if the temperature is decreased.
Hubert KochLv2
14 Jul 2019