Equilibrium Calculations

1) The following reaction has an equilibrium constant of 0.083 at 900°C.

COCl₂(g) CO(g) + Cl₂(g)

If you have 1.00 mole of COCl₂(g) in a 1.00-L container initially, how many moles of COCl₂ will be present when the system reaches equilibrium?

(a) 0.75 moles

(b) 0.89 moles

(c) 0.71 moles

(d) 0.96 moles

2) You have 0.50 mol SbCl₅ present initially in a 1.0-L flask. The system is allowed to reach equilibrium at 450�C as shown below.

SbCl₅(g) SbCl₃(g) + Cl₂(g)

There is 0.10 mol Cl₂ present at equilibrium. What is K?

(a) 2.0 x 10^-2

(b) 2.5 x 10^-2

(c) 1.0 x 10^-1

(d) 4.0 x 10¹

(e) 5.0 x 10¹

3) The following reaction has an equilibrium constant of 0.050 at a given temperature.

N₂(g) + O₂(g) 2NO(g)

If you have 0.75 moles of N₂(g) and 0.75 moles of O₂(g) in a 2.0-L container initially, how many moles of N₂ will be present when the system reaches equilibrium?

(a) 0.67 moles

(b) 0.73 moles

(c) 0.61 moles

(d) 0.74 moles

(e) 0.34 moles

4) You have 0.80 moles NH₃ and 0.80 moles O₂ present initially in a 4-L flask. You allow the reaction to run until it reaches equilibrium as shown below.

2NH₃(g) + 2O₂(g) 2N₂O(g) + 3H₂O(g)

Which of the following is the correct ICE table for this equilibrium?

(a)

NH₃

O₂

N₂O

H₂O

[]_i

0.8

0.8

  0

   0

[]_c

-2x

-2x

+x

+3x

[]_e

0.8 - 2x

0.8 - 2x

  x

  3x

(b)

NH₃

O₂

N₂O

H₂O

[]_i

0.2

0.2

0

   0

[]_c

-6x

-6x

+6x

+6x

[]_e

0.2 - 6x

0.2 - 6x

  4x

  4x

(c)

NH₃

O₂

N₂O

H₂O

[]_i

0.8

0.8

0

  0

[]_c

-x

-x

+x

+x

[]_e

0.8 - x

0.8 - x

  x

  x

(d)

NH₃

O₂

N₂O

H₂O

[]_i

0.2

0.2

0

  0

[]_c

-2x

-2x

+x

        +3x

[]_e

0.2 - 2x

0.2 - 2x

  x

3x

5) You have 0.80 moles NH₃ and 0.40 moles O₂ present initially in a 4-L flask. You allow the reaction to run until it reaches equilibrium as shown below.

4NH₃(g) + 5O₂(g) 4NO(g) + 6H₂O(g)

Which of the following is the correct ICE table for this equilibrium?

(a)

NH₃

O₂

N₂O

H₂O

[]_i

0.80

0.40

  0

0

[]_c

  -x

-x

+x

+x

[]_e

0.80 - x

0.40 - x

  x

  x

(b)

NH₃

O₂

N₂O

H₂O

[]_i

0.20

0.10

0

   0

[]_c

-4x

-5x

+4x

+6x

[]_e

0.20 - 4x

0.10 - 5x

  4x

  6x

(c)

NH₃

O₂

N₂O

H₂O

[]_i

0.80

0.40

0

   0

[]_c

-4x

-5x

+4x

+6x

[]_e

0.20 - 4x

0.40 - 5x

  4x

  6x

(d)

NH₃

O₂

N₂O

H₂O

[]_i

0.20

0.10

   0

     0

[]_c

-30x

-30x

+30x

        +30x

[]_e

0.20 - 30x

0.10 - 30x

  30x

30x

6) The following reaction has an equilibrium constant of 50. at a given temperature.

I₂(g) + H₂(g) 2HI(g)

If you have 0.59 moles of I₂(g) and 0.59 moles of H₂(g) in a 0.50-L container initially, how many moles of H₂ will be present when the system reaches equilibrium?

(a) 0.14 moles

(b) 0.02 moles

(c) 0.13 moles

(d) 0.070 moles

(e) 0.26 moles

7) You have 0.50 mol each of H₂O and Cl₂O present initially in a 1.0-L flask. The system is allowed to reach equilibrium at 25�C as shown below.

H₂O(g) + Cl₂O(g) 2HOCl(g)

There is 0.13 mol HOCl present at equilibrium. What is K?

(a) 8.9 x 10^-2

(b) 6.8 x 10^-2

(c) 6.8 x 10^-1

(d) 1.2 x 10^-1

(e) 1.0

8) The following reaction has an equilibrium constant, K_c, of 12 at 900°C.

CO(g) + Cl₂(g) COCl₂(g)

If you have 0.57 moles of Cl₂(g) and 0.57 moles of CO(g) in a 1.0-L container initially, how many moles of CO will be present when the system reaches equilibrium?

(a) 0.020 moles

(b) 0.18 moles

(c) 0.040 moles

(d) 0.50 moles

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	NH₃	O₂	N₂O	H₂O
[]_i	0.8	0.8	0	0
[]_c	-2x	-2x	+x	+3x
[]_e	0.8 - 2x	0.8 - 2x	x	3x