0.298 atm
At a certain temperature, the K_p, for the decomposition of H_2S is 0.704 H_2S(g) reversible H_2(g)...
At a certain temperature, the K_p for the decomposition of H_2S is 0.754. H_2S(g) H_2(g) + S(g) Initially, only H_2S is present at a pressure of 0.141 atm in a closed container. What is the total pressure in the container at equilibrium?
At a certain temperature, the Kp for the decomposition of H2S is 0.828. At a certain temperature, the K_p for the decomposition of H_2S is 0.828. H_2(g) H_2(g) + S(g) Initially, only H_2S is present at a pressure of 0.269 atm in a closed container. What is the total pressure in the container at equilibrium?
At a certain temperature, the Kp for the decomposition of H_2S is 0.878. Initially, only H_2S is present at a pressure of 0.176 atm in a closed container. What is the total pressure in the container at equilibrium?
At a certain temperature, the K, for the decomposition of H2S is 0.782. HS(g) = H2(g) + S(g) Initially, only H, S is present at a pressure of 0.260 atm in a closed container. What is the total pressure in the container at equilibrium? Ptotal = atm
At a certain temperature, the Kp for the decomposition of H2S is 0.841 H,S(g) H2(g) + S(g) Initially, only H2S is present at a pressure of 0.127 atm in a closed container. What is the total pressure in the container at equilibrium? Number atm
At a certain temperature, the Kp for the decomposition of H2S is 0.800. H2S(g) H2(g) + S(g) Initially, only H2S is present at a pressure of 0.236 atm in a closed container. What is the total pressure in the container at equilibrium?
At a certain temperature, the Kp for the decomposition of H2S is 0.770 atm. H, S(g) = H,(g) + S(g) Initially, only H S is present at a pressure of 0.213 atm in a closed container. What is the total pressure in the container at equilibrium? Ptotal atm
At a certain temperature, the K, for the decomposition of H, S is 0.796. H,S(g) = H (g) +S(g) Initially, only H, S is present at a pressure of 0.258 atm in a closed container. What is the total pressure in the container at equilibrium? Plotal = atm
At a certain temperature, the Kp for the decomposition of H,S is 0.715 atm. H,S(g) - H, (g) + S(g) Initially, only H,S is present at a pressure of 0.117 atm in a closed container. What is the total pressure in the container at equilibrium? atm
At a certain temperature, the Kp for the decomposition of H2S is 0.710. H,S(g) = H, (g) + S(g) Initially, only H S is present at a pressure of 0.291 atm in a closed container. What is the total pressure in the container at equilibrium?