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Equilibrium Expressions mass-action expression

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1 Equilibrium Expressions mass-action expression
Chemists use an equilibrium expression to mathematically describe a system undergoing a chemical change.

2 the General Expression
Start with a balanced equation N H NH3 Coefficients become powers (exponents) Then [products] [NH3]2 [N2] x [H2]3 = Keq [reactants]

3 Significance of Keq equilibrium constant tells you if you have
more products OR more reactants at equilibrium “favors” this means that at Eq, you have a greater concentration of that (those) species. A small constant favors reactants > 1 < 1 A large constant favors products

4 Practice Problems PCl5(g) ↔ PCl3(g) + Cl2(g)
The equilibrium constant for this system equals 35.0 at a certain temperature. If the concentrations of the PCl5 and the PCl3 are mol/L and 0.78 mol/L respectively, what is the concentration of the Cl2? 0.67 mol/L Answer worked out

5 Practice Problems PCl5(g) ↔ PCl3(g) + Cl2(g)
The equilibrium constant for this system equals 35.0 at a certain temperature. If the concentrations of the PCl5 and the PCl3 are mol/L and 0.78 mol/L respectively, what is the concentration of the Cl2?

6 Use an ICE table and MOLES to help you figure it out!
…………….. Now A total of 3.50mol of PCl5 is placed into a 0.500L container and heated to 250oC. At equilibrium, the container holds mol of Cl2. Calculate the equilibrium constant. Use an ICE table and MOLES to help you figure it out!

7 This is what an ICE table looks like

8

9

10

11 Subtract because reactants are being used up.
Add because products are being formed.

12 This Keq makes sense because it is < 1 and therefore favors the
reactants at equilibrium. Go back and look at the last line of the ICE table. There is a greater concentration of reactants than products.

13 2SO2 (g) +  O2 (g) ⇄  2SO3 (g) Consider the above reaction. When moles of SO2 and moles of O2 are placed into a 1.00 liter container and allowed to reach equilibrium, the equilibrium [SO3] is to be 0.250M. Calculate the Keq value.

14

15 All these Ks which is which?????????
Ksp = solubility product constant for “insoluble” substances Ka = relative strength of ionization of an acid HI = H+ + I- Ka= “very large”/strong H2S = 2H+ + S-2 Ka=9.5x10-8 /weak Keq = equilibrium constant; calculated from mass action expression Larger numbers favor products

16 THE END

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