Consider the reaction: A(g) hArr B(g)+...

Consider the reaction:
`A(g) hArr B(g)+C(g)`
When the system is at equilibrium at `200^(@)C`, the concentrations are found to be:
`[A]=0.20 M, [B]=0.30 M, [C]=0.30 M`
a. If the volume of the container is suddenly doubled at `200^(@)C`, find the equilibrium concentrations.
b. If the volume of the container is suddenly halved (instead of being doubled in part (i) at `200^(@)C`, find the equilibrium concentrations.

Text Solution

AI Generated Solution

To solve the problem, we will analyze the equilibrium concentrations of the reaction \( A(g) \rightleftharpoons B(g) + C(g) \) under two different scenarios: when the volume is doubled and when the volume is halved. ### Part (a): Volume is Doubled 1. **Initial Concentrations**: - \([A] = 0.20 \, \text{M}\) - \([B] = 0.30 \, \text{M}\) - \([C] = 0.30 \, \text{M}\) ...

Topper's Solved these Questions

CHEMICAL EQUILIBRIUM
CENGAGE CHEMISTRY ENGLISH|Exercise Concept Applicationexercise 7.1|53 Videos
CHEMICAL EQUILIBRIUM
CENGAGE CHEMISTRY ENGLISH|Exercise Ex 7.2|40 Videos
CHEMICAL BONDING AND MOLECULAR STRUCTURE
CENGAGE CHEMISTRY ENGLISH|Exercise Archives Subjective|15 Videos
CLASSIFICATION AND NOMENCLATURE OF ORGANIC COMPOUNDS
CENGAGE CHEMISTRY ENGLISH|Exercise Analytical and Descriptive Type|3 Videos

Similar Questions

Explore conceptually related problems

Consider the reaction X(g) hArr Y(g)+Z(g) When the system is at equilibrium at 100^(@) , the concentrations are found to be [X]=0.2 M, [Y]=[Z]=0.4 M a. If the pressure of the container is suddenly halved at 100^(@)C , find equilibrium concentration. b. If the pressure of the container is suddenly doubled at 100^(@)C , find the equilibrium concentration

Consider the imaginary equilibrium 4A(g)+5B(g)hArr 4X(g)+6Y(g) , The unit of equilibrium constant K_(C) is

In the reaction A+B hArr C+D , What will happen to the equilibrium if concentration of A is increased ?

For a system of gases A, B, C, and D at equilibrium A+2B hArr C+3D , the partial pressures are found to be A=2.0, B=2.0, C=3.0, and D=5.0 atm. The value of equilibrium constant is ………….

For the reaction, A(g)+2B(g)hArr2C(g) one mole of A and 1.5 mol of B are taken in a 2.0 L vessel. At equilibrium, the concentration of C was found to be 0.35 M. The equilibrium constant (K_(c)) of the reaction would be

In the equilibrium, AB(s) rarr A(g) + B(g) , if the equilibrium concentration of A is doubled, the equilibrium concentration of B would become

For the reaction, 2SO_(2(g))+O_(2(g))hArr2SO_(3(g)) What is K_(c) when the equilibrium concentration of [SO_(2)]=0.60M,[O_(2)]=0.82Mand[SO_(3)]=1.90M ?

For , A + B hArr C. the equilibrium concentration of A and B at a temperäture are 15 mol lit^(-1) When volume is doubled the reaction has equilibrium concentration of A as 10 mol lit^(-1) then

For the reaction H_(2)(g) + I_(2)(g)hArr2HI(g) at 721 K the value of equilibrium constant (K_(c)) is 50. When the equilibrium concentration of both is 0.5 M, the value of K_(p) under the same condtions will be

The K_(c) for H_(2(g)) + I_(2(g))hArr2HI_(g) is 64. If the volume of the container is reduced to one-half of its original volume, the value of the equilibrium constant will be

CENGAGE CHEMISTRY ENGLISH-CHEMICAL EQUILIBRIUM-Subjective type

Consider the reaction: A(g) hArr B(g)+C(g) When the system is at e...
Text Solution
|
The equilibrium constant K(p) of the reaction: 2SO(2)+O(2) hArr 2SO(3)...
Text Solution
|