5 mL solution of H2O2 liberates 1.27 g o...

5 mL solution of `H_2O_2` liberates 1.27 g of iodine from an acidified KI solution. What is the molarity of `H_2O_2`?

Text Solution

Verified by Experts

`H_2O_2-=KI-=I_2`
`mEq-=mEq-=mEq`
`N_1xxV_1-=("weight of I_2")/(Ew(I_2))xx10^(3)mEq`
`N_1xx5mL-=(1.27xx10^(3))/((127xx2)/(2))` (n-factor of `I_2=2`)
`(2I^(ɵ)toI_2+2e^(-))`
Normality of `H_2O_2-=2N`
Molarity of `H_2O_2-=("normality")/(2)=(2)/(2)=1M`
(n-factor of `H_2O_2=2)(2e^(-)+H_2O_2to2H_2O)`

Promotional Banner

Promotional Banner

Topper's Solved these Questions

STOICHIOMETRY
CENGAGE CHEMISTRY|Exercise Ex 3.1|3 Videos
STOICHIOMETRY
CENGAGE CHEMISTRY|Exercise Ex 3.2|3 Videos
STATES OF MATTER
CENGAGE CHEMISTRY|Exercise Exercises (Ture False)|25 Videos
THERMODYNAMICS
CENGAGE CHEMISTRY|Exercise Archives (Subjective)|23 Videos

Similar Questions

Explore conceptually related problems

A 5.0mL solution of H_2O_2 liberates 1.27g of iodine from an acidified KI solution. The strength of H_2O_2 is in terms of volume strength is

A 5.0 mL solution of H_(2)O_(2) liberates 1.27 g of iodine from an acidified KI solution. The percentage strenth of H_(2)O_(2) is

A 5.0 cm^(3) solution of H_(2)O_(2) liberates 1.27 g of iodine from an acidified KI solution. The precentage strength of H_(2)O_(2) is

A 5.0 mL of solution of H_(2)O_(2) liberates 0.508 g of iodine from acidified KI solution. Calculate the strength of H_(2)O_(2) solution in terms of volume strength at STP .

A 5-0cm^(3) solutions of H_(2)O_(2) liberates of 0.508g of iodine from acidified KI solution. Calculate the volume strength of H_(2)O_(2) at N.T.P.

10 ml of H_(2)O_(2) liberates 12.7 g of iodine from an acidic KI solution. Calculate (a) normality, (b) molarity, (c) volume strength. (d) Strength and (c) percentage strength of H_(2)O_(2) .

10 " mL of " H_2O_2 liberates 12.7 g of iodine form an acidic KI solution. Calculate the (a) normality, (b) molarity, (c) volume strength, (d). Strength, and (e) percentage strength of H_2O_2 .

CENGAGE CHEMISTRY-STOICHIOMETRY-Archives Subjective

5 mL solution of H2O2 liberates 1.27 g of iodine from an acidified KI ...
Text Solution
|
In the analysis of 0.1 of sample of feldspar, 0.118 g of mixture of Na...
Text Solution
|
Five millilitires of a gas (A) containing only C and H was mixed with ...
Text Solution
|
(a). Take 1 L of a mixture of CO and CO(2) Pass this mixture through a...
Text Solution
|
Find out the equivalent weight of H(3) PO(4)in the reaction: Ca(OH)(...
Text Solution
|
Hydroxylamine reduces Fe^(3+) accoeding to the following reaction: 2...
Text Solution
|
An organic compound (C(x)H(2y)O(y)) was burnt with twice the amount of...
Text Solution
|
4.08 g of a mixture of BaO and an unknown carbonate MCO(3) was heated ...
Text Solution
|
When 16.8 g of a white solid X was heated 4.4 g of an acid gas A which...
Text Solution
|
2.68xx10^(-3) moles of solution containing anion A^(n+) require 1.61xx...
Text Solution
|
5 mL of 8 N HNO(3), 4.8 mL of 5N HCl and a certain volume of 17 M H(2)...
Text Solution
|
What is the weight of sodium bromate and molarity of solution to prepa...
Text Solution
|
A sample of hydrazine sulphate (N(2)H(6)SO(4)) was dissolved in 100 mL...
Text Solution
|
An equal volume of reducing agent is titrated separately with 1 M KMnO...
Text Solution
|
n-butane is produced by the monobromination of ethane followed by Wurt...
Text Solution
|
A mixture of H(2)C(2)O(4) and NaHC(2)O(4) weighing 2.02 g was dissolve...
Text Solution
|
A solid mixture 5 g consists of lead nitrate and sodium nitrate was he...
Text Solution
|
A solution of 0.2 g of a compound containing Cu^(2+) and C(2)O(4)^(2-)...
Text Solution
|
A 1 g sample of Fe(2)O(3) solid of 55.2% purity is dissolved in acid a...
Text Solution
|
A 2.0 g sample of a mixture containing sodium carbonate, sodium bicarb...
Text Solution
|
1 g sample of AgNO(3) is dissolved in 50 mL of water, It is titrated w...
Text Solution
|