Answer:
% = 47.92%
Step-by-step explanation:
To do this, let's write the equilibrium reaction for this:
PCl₅ <-------> PCl₃ + Cl₂ Kc = 1.1x10⁻²
The percent of decomposition is a number that indicates how much of the initial reactant was decomposed in the reaction. To know this number, we need to know how much of the initial reactant have left after the equilibrium is reached.
First, let's calculate the initial moles of PCl₅. The reported molar mass of PCl₅ is 208.24 g/mol so the moles:
n = 1/208.24 = 0.0048 moles
We have the moles, let's calculate the concentration using the 250 mL flask:
M = 0.0048 / 0.250 = 0.0192 M
Now that we have the concentration, let's do an ICE chart for this reaction:
PCl₅ <-------> PCl₃ + Cl₂ Kc = 1.1x10⁻²
i) 0.0192 0 0
c) -x +x +x
e) 0.0192-x x x
The equilibrium expression (Kc) would be:
Kc = [PCl₃] [Cl₂] / [PCl₅]
Replacing the above data we have:
1.1*10⁻² = x² / (0.0192-x) solving for x:
1.1*10⁻²(0.0192 - x) = x²
2.112*10⁻⁴ - 1.1*10⁻² = x²
x² + 1.1*10⁻²x - 2.112*10⁻⁴ = 0 -----> a = 1; b = 1.1*10⁻²; c = -2.112x10⁻⁴
Using the general equation for solving x in a quadratic equation we have:
x = -b ±√(b² - 4ac) / 2a
x = -1.1*10⁻² ±√(1.1x10⁻²)² + 4*1*2.112*10⁻⁴ / 2*1
x = -1.1*10⁻² ±√(9.658*10⁻⁴) / 2
x = -1.1*10⁻² ± 3.11x10⁻² / 2
x₁ = -1.1*10⁻² + 3.11x10⁻² / 2 = 0.010
x₂ = -1.1*10⁻² - 3.11x10⁻² / 2 = -0.02105
As x₁ is positive, this would be the correct value of x. This value corresponds to the concentration of PCl₃ and Cl₂:
[PCl₃] = [Cl₂] = 0.010 M
And the concentration of PCl₅ would be:
[PCl₅] = 0.0192 - 0.010 = 0.0092 M
Finally the percent decomposition is:
% = 0.0092 / 0.0192 * 100
% = 47.92 %
This would be the % decomposition for this reaction