n mole each of H(2)O(g),H(2)(g) "and" O(...

n mole each of `H_(2)O(g),H_(2)(g) "and" O_(2)(g)` are mixed at a suitable high temperature to attain the equilibrium `2H_(2)O(g)hArr2H_(2)(g)+O_(2)(g)`. If `y` and mole of `H_(2)O(g)` are the dissociated and the total pressure maintained is `P`, calculate the `K_(P)`.

Text Solution

Verified by Experts

The correct Answer is:

`(P(n+y//2)(n+y)^(2))/((3n+y//2)(n-y)^(2))`

Topper's Solved these Questions

CHEMICAL EQUILIBRIUM
RESONANCE|Exercise Exercise-1 (Part-2)|88 Videos
CHEMICAL EQUILIBRIUM
RESONANCE|Exercise Exercise-2 (Part-1)|28 Videos
CHEMICAL EQUILIBRIUM
RESONANCE|Exercise Board Level Exercise|33 Videos
CHEMICAL BONDING
RESONANCE|Exercise Inorganic chemistry (Chemistry Bonding)|49 Videos
D & F-BLOCK ELEMENTS & THEIR IMPORTANT COMPOUNDS
RESONANCE|Exercise Match the column|1 Videos

Similar Questions

Explore conceptually related problems

For the equilibrium H_(2) O (1) hArr H_(2) O (g) at 1 atm 298 K

1 mole each of CO(g), H_(2)O(g), H_(2)(g) and CO_(2)(g) are placed in one placed in one litre flask at 25^(@)C . When following equilibrium is set -up CO(g)+H_(2)O(g)hArr CO_(2)(g)+H_(2)(g) K_(p)=0 . Hence CO_(2) present at equilibrium is :

For the reaction CO(g)+H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) at a given temperature, the equilibrium amount of CO_(2)(g) can be increased by

For the reaction CO(g) +H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) at a given temperature the equilibrium amount of CO_(2) (g) can be increased by

The equilibrium constant (K_(p)) for the decomposition of gaseous H_(2)O H_(2)O(g)hArr H_(2)(g)+(1)/(2)O_(2)(g) is related to the degree of dissociation alpha at a total pressure P by

2g of H_(2) and 1g O_(2) are allowed to react according to following equation 2H_(2)(g)+O_(2)(g) to 2H_(2)O(g) Amount of H_(2)O formed in the reaction will be:

The degree of dissociation of SO_(3) at equilibrium pressure is: K_(p) for 2SO_(3) (g)hArr2SO_(2)(g) + O_(2) (g)

RESONANCE-CHEMICAL EQUILIBRIUM-Exercise-1 (Part-1)

For the reaction 3A(g)+B(g) hArr 2C(g) at a given temperature , Kc=9.0...
Text Solution
|
The gas A(2) in the left flask allowed to react with gas B(2) present ...
Text Solution
|
n mole each of H(2)O(g),H(2)(g) "and" O(2)(g) are mixed at a suitable ...
Text Solution
|
The partial pressures of N(2)O(4) "and" NO(2) "at" 40^(@)C for the fol...
Text Solution
|
1 "mole of" N(2) "and" 3 "moles of " H(2) are placed in 1L vessel. Fin...
Text Solution
|
Calculate the expression for K(C) "and" K(P) if initially a moles of N...
Text Solution
|
1 mole of a gas A is taken in a vessel of volume 1L. It dissociates ac...
Text Solution
|
0.15 mole of CO taken in a 2.5L flask is maintained at 750K along with...
Text Solution
|
A mixture of 1.57 mol of N(2), 1.92 mol of H(2) and 8.13 mol of NH(3) ...
Text Solution
|
At 460^(@)C, K(C)=81 for the reaction, SO(2)(g)+NO(2)(g)hArrNO(g)+SO(3...
Text Solution
|
Explain the effect of the following on the equilibrium constant. (i)...
Text Solution
|
The equilibrium constant for the reactions N(2)+O(2)hArr2NO"and "NO+...
Text Solution
|
Calculate the equilibrium constant for the reaction, H(2(g))+CO(2(g)...
Text Solution
|
The homogeneous reversible reaction, C(2)H(5)OH+COOHhArrCH(3)COOC(2)H(...
Text Solution
|
The ester, ethyl acetate is formed by the reaction between ethanol and...
Text Solution
|
N(2)O(4) is 25% dissociated at 37^(@)C and one atmosphere pressure. Ca...
Text Solution
|
At temperature T, a compound AB(2)(g) dissociates according to the rea...
Text Solution
|
Vapour density of the equilibrium mixture of NO(2) "and" N(2)O(4) is f...
Text Solution
|
When sulphur in the form of S(8) is heated at 900 K, the initial press...
Text Solution
|
In a container H(2)O(g),CO(g) "and" H(2)(g) are present in the molar r...
Text Solution
|