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Michael Grab, “Gravity Glue”

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Presentation on theme: "Michael Grab, “Gravity Glue”"— Presentation transcript:

1 Michael Grab, “Gravity Glue”
Reaction Quotient, Q Michael Grab, “Gravity Glue” Honors Chemistry

2 More about equilibrium:
We’ve been looking at systems that reach equilibrium! What if a reaction has not yet reached equilibrium? How can you predict the direction in which the reaction must proceed to reach equilibrium? We use the reaction quotient!

3 Reaction Quotient (Q):
For a general reaction: aA (aq) + bB (aq) ↔ cC (aq) + dD (aq) the reaction quotient (Q) is: 𝑄= [𝐶] 𝑐 [𝐷] 𝑑 [𝐴] 𝑎 [𝐵] 𝑏 What does this look like? Keq! Q is used same way as Keq but uses actual concentrations while the reaction is proceeding, not when it has reached equilibrium.

4 The Relationship Between the Equilibrium Constant:
If Qc > Kc: There are too many products. Reaction moves left (from products to reactants) If Qc < Kc: There are too many reactants. Reaction moves right (from reactants to products) What if Qc = Kc ? Then system is at equilibrium!

5 Think mathematically….

6 Example: Calculate the Qc for the following reaction if these concentrations are present: [N2] = 0.10 M, [H2] = M and [NH3] = 0.20 M. Is the system at equilibrium if Kc of the reaction is 0.40? N2 (g) + 3H2 (g) ↔ 2NH3 (g)

7 Example continued… N2 (g) + 3H2 (g) ↔ 2NH3 (g) Calculate Qc:
Q= [N H 3 ] 2 N 2 [ H 2 ] 2 = [0.20 ] [0.30 ] 3 Q = 14.8 2. Compare Qc to Kc: 14.8 > 0.4 Qc > Kc (reaction shifts right to left (P to R)

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