Given that the following eqbm: SF2(g) + SiS(g) ⇌ F2(g) + SiS2(g) K = 0.1 Determine the [equilibrium] for all compounds if 0.25 M of all four materials were placed in a reaction chamber and allowed to reach equilibrium? Your Answer should follow the format: a) The reaction quotient Q b) the direction of the equilibrium shift c) the change line (with + or - x values) for (i) SF2(g) (ii) SiS(g) (iii) F2(g) (iv) SiS2(g) d) the technique used to solve for X (perfect square, quadratic equation or 100 rule) e) the value of X. If the quadratic equation was used, provide both values of X and identify the X value that will be used to determine the equilibrium concentrations. f) the equilibrium molarity of (i) SF2(g) (ii) SiS(g) (iii) F2(g) (iv) SiS2(g)
Given that the following eqbm:
SF2(g) + SiS(g) ⇌ F2(g) + SiS2(g) K = 0.1
Determine the [equilibrium] for all compounds if 0.25 M of all four materials were placed in a reaction chamber and allowed to reach equilibrium?
Your Answer should follow the format:
a) The reaction quotient Q
b) the direction of the equilibrium shift
c) the change line (with + or - x values) for (i) SF2(g) (ii) SiS(g) (iii) F2(g) (iv) SiS2(g)
d) the technique used to solve for X (perfect square, quadratic equation or 100 rule)
e) the value of X. If the quadratic equation was used, provide both values of X and identify the X value that will be used to determine the equilibrium concentrations.
f) the equilibrium molarity of (i) SF2(g) (ii) SiS(g) (iii) F2(g) (iv) SiS2(g)
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