For the system, H₂(g)+ I₂(g) 2HI(g), K_c = 24.4 at 300 K. A system was charged with 1.00 moles of H₂(g)and 1.00 moles of I₂(g)in a 3.00 liter container. The catalyst was introduced using a remote unit, and the system was allowed to come to equilibrium. How many moles of H₂(g)will be present when the system reaches equilibrium? Hint: Organize your information using an ICE table, then use the equilibrium expression to find the equilibrium amount of H₂.

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The Answer of For the system, H₂(g)+ I₂(g) 2HI(g), K_c = 24.4 at 300 K. A system was charged with 1.00 moles of H₂(g)and 1.00 moles of I₂(g)in a 3.00 liter container. The catalyst was introduced using a remote unit, and the system was allowed to come to equilibrium. How many moles of H₂(g)will be present when the system reaches equilibrium? Hint: Organize your information using an ICE table, then use the equilibrium expression to find the equilibrium amount of H₂.

For the System, H2(g)+ I2(g) 2HI(g), Kc = 24

For the System, H₂(g)+ I₂(g) 2HI(g), K_c = 24