3.2 moles of HI (g) were heated in a sea...

3.2 moles of HI (g) were heated in a sealed bulb at `444^(@)C` till the equlibrium was reached its degree of dissociation was found to be `20%` Calculate the number of moles of hydrogen iodide, hydrogen and iodine present at eth equlibrium point and determine the value of equlibrium constnat for the reaction `2Hl(g)hArrH_(2)(g)+I_(2)(g).` Considering the volume of the container 1 L.

Text Solution

Verified by Experts

`K_(c)=0.0156,[Hl]=2.56M,[H_(2)]=[l_(2)]=0.32M`

Topper's Solved these Questions

EQUILIBRIUM
AAKASH INSTITUTE|Exercise Assignment (SECTION-A) (SUBJECTIVE TYPE QUESTIONS(ONE OPTION IS CORRECT)|45 Videos
EQUILIBRIUM
AAKASH INSTITUTE|Exercise Assignment (SECTION-B)(OBJECTIVE TYPE QUESTIONS (ONE OPTION IS CORRECT)|20 Videos
EQUILIBRIUM
AAKASH INSTITUTE|Exercise ASSIGNMENT (SECTION -D)|20 Videos
ENVIRONMENTAL CHEMISTRY
AAKASH INSTITUTE|Exercise ASSIGNMENT (SECTION-D) (Assertion - Reason Type Questions)|5 Videos
GENERAL PRINCIPLES AND PROCESSES OF ISOLATION OF ELEMENTS
AAKASH INSTITUTE|Exercise Assignment (Section-D) Assertion-Reason Type Question|15 Videos

Similar Questions

Explore conceptually related problems

3.2 moles of HI were heated in a sealed bulb at 444^(@)C till the equilibrium was reached. Its degree of dissociation was found to be 20% . Calculate the number of moles of hydrogen iodide, hydrogen and iodine present at the equilibrium point and determine the value of equilibrium constant.

3.2 moles of hydrogemn iodide was heted in a sealed bulb at 444^(@)C till the equilibrium state was reached. Its degree of dissociation sat this temperature was found to be 22% . The number of moles of hydrogen iodide present at equilibrium is

If DeltaG^(@) for the reaction given below is 1.7 kJ , the equilibrium constant of the reaction, 2HI_((g))hArrH_(2(g))+I_(2(g)) at 25^(@)C is :

If DeltaG^(@)(HI, g)=+"1.7kJ/mole" . What is the equilibrium constnat at 25^(@)C for 2HI(g)hArrH_(2)(g)+I_(2)(g) ?

4.5 moles each of hydrogen and iodine heated in a sealed 10 litrevesel. At equilibrium, 3 moles of HI was foun. The equilibrium constant for H_(2)(g) + I_(2) (g)hArr2HI(g) is

AAKASH INSTITUTE-EQUILIBRIUM-TRY YOURSELF

For the reaction, A(g)+B(s)hArrC(g)+D(g).K(c)=49 mol L^(-1)at 127^(@)C...
Text Solution
|
The value of K(c)=4.24 at 800 K for the reaction CO(g)+H(2)O(g)hArrC...
Text Solution
|
3.2 moles of HI (g) were heated in a sealed bulb at 444^(@)C till the ...
Text Solution
|
The value of DeltaG^(ɵ) for the phosphorylation of glycose in glycolys...
Text Solution
|
Hydrolysis of sucrose gives "Sucrose" +H(2)OhArr"Glucose + Fructose"...
Text Solution
|
A system at equilibrium is described by the equation SO(2)Cl(2) hArr...
Text Solution
|
Mention atleast three ways by which the concentration of SO(2)(g) be i...
Text Solution
|
Name a species which can act both as conjugate acid and conjugate base...
Text Solution
|
BCl(3) behavs a a Lewis acid Give reason.
Text Solution
|
Calculte the pof (N)/(1000) sodium hydroxide (NaOH) solution assuming ...
Text Solution
|
13.5 g of an acid HA of molecular mass 135 was dissolved in 10 litres ...
Text Solution
|
Calculate t the H^(+) ion concentration in 0.10 M acetic acid solution...
Text Solution
|
When 0.1 mole of NH(3) is dissolved in water to make 1.0 L of solution...
Text Solution
|
If ionisation constant of an acid (HA) at equlibrium is 1.0xx10^(-8) t...
Text Solution
|
Calcuate the degree of ionisation and pH of 0.05 M solution of a weak ...
Text Solution
|
The ionization constnt of (C(2)H(5))(3)N is 6.4xx10^(-5). Calculate it...
Text Solution
|
Calculate the pH of 0.033 M ammonia solution if 0.033 M NH(4)Cl is int...
Text Solution
|
Calculate the pH of 0.01 M solution of NH(4)CN. The dissociation const...
Text Solution
|
One litre of 0.05 M HCl was completely neutralized by NaOH. Calcuate t...
Text Solution
|
The solubilty of barium sulphate at 298 K is 1.1 xx 10^(-5) "mol " L^(...
Text Solution
|