1a.) 0.367 atm of substance A is added to a reaction flask at 200 °C and equilibrium is established: A (g) = 2B (g) If the total pressure in the flask is 0.512 atm at equilibrium, calculate the equilibrium partial pressures of A and B as well as the equilibrium constant, Kp. b.) In a different experiment, you introduce some amount of substance A into a reaction flask at 200 °C (you forget to record the starting pressure in your lab notebook). Once equilibrium has been established, you measure the partial pressure of B to be 0.420 atm. Using your answer to part a, what is the partial pressure of A at equilibrium? (Hint: no RICE chart is necessary to solve this problem)

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1a.) 0.367 atm of substance A is added to a reaction flask at 200 °C and equilibrium is established: A (g) = 2B (g) If the total pressure in the flask is 0.512 atm at equilibrium, calculate the equilibrium partial pressures of A and B as well as the equilibrium constant, Kp. b.) In a different experiment, you introduce some amount of substance A into a reaction flask 200 °C (you forget to record the starting pressure in your lab notebook). Once equilibrium has been established, you measure the partial pressure of B to be 0.420 atm. Using your answer to part a, what is the partial pressure of A at equilibrium? (Hint: no RICE chart is necessary to solve this problem)