Antimony(V) chloride. SbCl 5 , decomposes on heating to give antimony(III) chloride, SbCl 3 , and chlorine. SbCl 5 ( g ) ⇌ SbCl 3 ( g ) + Cl 2 ( g ) A closed 3.50-L vessel initially contains 0.0125 mol SbCl 5 . What is the total pressure at 248°C when equilibrium is achieved? The value of K c at 248°C is 2.50 × 10 −2 .
Antimony(V) chloride. SbCl 5 , decomposes on heating to give antimony(III) chloride, SbCl 3 , and chlorine. SbCl 5 ( g ) ⇌ SbCl 3 ( g ) + Cl 2 ( g ) A closed 3.50-L vessel initially contains 0.0125 mol SbCl 5 . What is the total pressure at 248°C when equilibrium is achieved? The value of K c at 248°C is 2.50 × 10 −2 .
Author: Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell
Antimony(V) chloride. SbCl5, decomposes on heating to give antimony(III) chloride, SbCl3, and chlorine.
SbCl
5
(
g
)
⇌
SbCl
3
(
g
)
+
Cl
2
(
g
)
A closed 3.50-L vessel initially contains 0.0125 mol SbCl5. What is the total pressure at 248°C when equilibrium is achieved? The value of Kc at 248°C is 2.50 × 10−2.
Expert Solution & Answer
Interpretation Introduction
Interpretation:
The total pressure of the system at equilibrium has to be found.
Concept introduction:
Equilibrium constant(Kc): A system is said to be in equilibrium when all the measurable properties of the system remains unchanged with the time. Equilibrium constant is the ratio of the rate constants of the forward and reverse reactions at a given temperature. In other words it is the ratio of the concentrations of the products to concentrations of the reactants. Each concentration term is raised to a power, which is same as the coefficients in the chemical reaction.
Consider the reaction where the reactant A is giving product B.
A⇌B
Rate of forward reaction = Rate of reverse reactionkf[A]=kr[B]
On rearranging,
[A][B]=kfkr=Kc
Where,
kf is the rate constant of the forward reaction.
kr is the rate constant of the reverse reaction.
Kc is the equilibrium constant.
Ideal gas equation is an equation that is describing the state of a imaginary ideal gas.
PV=n RT
Where,
P is the pressure of the gas
V is the volume
n is the number of moles of gas
R is the universal gas constant (R=0.0821LatmK-1mol-1)
T is the temperature
Answer to Problem 14.138QP
The total pressure of the system at equilibrium is found to be 0.29atm
Explanation of Solution
Given,
The initial amount of SbCl5=0.0125mol
The volume of the vessel =3.50L
The equilibrium constant Kc=2.50×10−2
Temperature=284°C=248+273.15=521.15K
To find initial concentration of reactantSbCl5
The initial concentrations of the H2 is found as given below.
Initial concentration ofSbCl5=Num of molesVolume=0.0125mol3.50L=0.0003571M
To find the equilibrium composition.
Using the table approach, the equilibrium concentrations of the reactants and the products can be found.
The equilibrium composition of the given reaction mixture was found. The total concentration of the equilibrium mixture is then substituted in the ideal gas equation to get the value of total pressure.
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