14.78g PCl5(g) and 10.15g
O2(g) are combined in a 1.500L vessel and reach
equilibrium with POCl3(g) and ClO(g). If K = 8.53x10-9,
find all equilibrium concentrations.
-
2 PCl5(g) +3 O2(g) ⇄2 POCl3(g) +4 ClO(g)[ ]initial(14.78g / 208.239g/mol)/ 1.500L = 0.047317M(10.15g / 31.998g/mol)/ 1.500L = 0.21147M0 M0 MΔ [ ]– 2x M– 3x+ 2x+ 4x M[ ]equilibrium(0.047317 – 2x) M(0.21147 – 3x) M2x M4x M
Plugging in to the
equilibrium constant expression...
Solving this directly would be rough,
so let's try a simplifying approximation. Since the equilibrium is
quite reactant-favored, we can assume that 2x
is small compared to 0.047317 and 3x is small compared to 0.21147.
We need to check this later, but that will simplify the equilibrium
constant expression to:
x6 =
1.76376x10-16
x = 0.002368
BEFORE WE GO ANY FARTHER, CHECK
THE ASSUMPTION WE MADE!! 2x = 0.0047, this is
(0.0047/0.047317)*100 = 9.9%. This is a little too high for this
assumption to work well. Oops. Don't worry, I don't expect anyone to
solve a 6th order polynomial on an exam, these numbers are
a little off because I made this problem up during class. For
numbers that work, try using K = 8.53x10-12. , then x =
7.489x10-4 and the assumption is OK. If you'd like to know
how to solve the original problem, you could use the method of
successive approximations, this was how I had to treat these problems
when I was an undergrad taking Gen Chem.
Exam tomorrow, if you have questions
let me know, I should be online until at least 7 or 8pm tonight.
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