equilibrium problem need help fast!!!!!!!!

[johnkneeboi]

The reaction PCl3(g)+Cl2(g)= PCl5(g) has Kp= 0.0870 at 300°C. A flask is charged with 0.50 atm PCl3, 0.50 atm Cl2, and 0.20 atm PCl5 at this temperature.

a) Determine in which direction the reaction must proceed in order to reach equilibrium.

b) Calculate the equilibrium partial pressures of each of the three of the gases.

c)What effect will increasing the volume of the system have on the mole fraction of Cl2 in the equilibrium mixture?

d)The reaction is exothermic. What effect will increasing the temperature of the system have on the partial pressure of Cl2 in the equilibrium mixture?

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[xanthomondo]

The reaction PCl3(g)+Cl2(g)= PCl5(g) has Kp= 0.0870 at 300°C. A flask is charged with 0.50 atm PCl3, 0.50 atm Cl2, and 0.20 atm PCl5 at this temperature.

a) Determine in which direction the reaction must proceed in order to reach equilibrium.

b) Calculate the equilibrium partial pressures of each of the three of the gases.

c)What effect will increasing the volume of the system have on the mole fraction of Cl2 in the equilibrium mixture?

d)The reaction is exothermic. What effect will increasing the temperature of the system have on the partial pressure of Cl2 in the equilibrium mixture?

Hmm... "need help fast" plus these kinda questions doesn't really sound like MCAT work, dawg.

 

[BerkReviewTeach]

The reaction PCl3(g)+Cl2(g)= PCl5(g) has Kp= 0.0870 at 300°C. A flask is charged with 0.50 atm PCl3, 0.50 atm Cl2, and 0.20 atm PCl5 at this temperature.

a) Determine in which direction the reaction must proceed in order to reach equilibrium.

b) Calculate the equilibrium partial pressures of each of the three of the gases.

c)What effect will increasing the volume of the system have on the mole fraction of Cl2 in the equilibrium mixture?

d)The reaction is exothermic. What effect will increasing the temperature of the system have on the partial pressure of Cl2 in the equilibrium mixture?

This is not a site for homework help, or in this case seeking someone to do your homework for you by tomorrow's due date.