For the reaction 2A(g) + B(aq) + 3C(l) D(s) + 3E(g), the concentrations at equilibrium are found to be:

Question

For the reaction 2A(g) + B(aq) + 3C(l)<------> D(s) + 3E(g), the concentrations at equilibrium are found to be:
A: 2.3x10^3 Pa
B: 1.8x10^-2 M
C: 15.8M
D: 12.5M
E: 5.6x10^4 Torr

Find the numerical value of the equilibrium constant that would appear in a conventional table of equilibrium constants.

DrBob222 · Accepted Answer

The problem is misleading. It says the numbers "below" are concentrations but they aren't. A is in pascals; although pressure and M can be mixed, pascals must be converted to atmospheres. 101325 Pa = 1 atm. Likewise, E is in torr and must be converted to atm. 760 torr = 1 atm.

DrBob222 · Answer

Solids and liquids don't count for Keq; therefore, Keq = (E)^3/(A)^2(B) Substitute those values from the problem and solve for Keq.

Ashley · Answer

for my answer i got 597559.1682 is this correct??