Answer:
The value for K is 4.94 (option e)
Explanation:
A(g) + 2B (g) → C(g)
Initially 2m 3m -
We have 2 moles of A and 3 moles of B
Some amount has reacted (x)
React x 2x x
Be careful, because ratio between A and B is 1:2
So we have the double of what we react
What happens at the equilibrium?
We have [A] in M = 0.232 mol/L
( 2moles (initially) - x) / 6L = 0.232 mol/L
2 - x = 0.232 m .6
2 - x = 1.392
x = 2 - 1.392 → 0.608
(x) The amount of what reacted.
A(g) + 2B (g) → C(g)
Initially 2m 3m -
React 0.608 1.216 0.608
What happens at the equilibrium
A(g) + 2B (g) → C(g)
Initially 2m 3m -
React 0.608 1.216 0.608
Eq 0.232 ( 3 - 1.216) /6 0.608/6
0.232 0.297 0.101
[B] and [C] are /6, because they are not molarity.
If we make react 0.608 moles, B has to react with the double of those moles, by stoichiometry. In equilibrium we have, moles at initially - moles reacted.
Ratio between A and C is 1:1. Between B and C is 2:1
Let's make the expression for K
K = [C] / [A] . [B]²
K = 0.101 / 0.232 . 0.298²
K = 4.9
(If you use all the decimal, you will get 4.94) :), enjoy!
