8 litre of hydrogen and 6 litre of Cl(2)...

8 litre of hydrogen and 6 litre of `Cl_(2)` are allowed to react to maximum possible extent. Find out the final volume of reaction mixture. Suppose P and T remains constant throughout the course of reaction -

7 litre

14 litre

2 litre

None of these

Text Solution

Verified by Experts

The correct Answer is:

`" "H_(2)+Cl_(2) rArr 2HCl`
Volume before reaction 8 bit `" 6 bit " "0`
`therefore` Volume after reaction
= Volume of `H_(2)` left + Volume of HCl formed
= 2 + 12 = 14 lit

Topper's Solved these Questions

MOLE CONCEPT
MOTION|Exercise EXERCISE - 1|64 Videos
MOLE CONCEPT
MOTION|Exercise EXERCISE - 2 (LEVEL - I)|50 Videos
METALLURGY
MOTION|Exercise EXERCISE 4 (LEVEL - II)|17 Videos
NOMENCLATURE OF ORGANIC COMPOUNDS
MOTION|Exercise PREVIOUS YEAR|8 Videos

Similar Questions

Explore conceptually related problems

8 litre of H_(2) and 6 litre of Cl_(2) are allowed to react to maximum possible extent. Find out the final volume of reaction mixutre. Suppose P and T remains constant throughout the course of reaction.

14 g of O_2 and 4 g of C_3H_8 are allowed to react to the maximum possible extent to form only CO and H_2O . Find the weight of CO formed.

If 6 litre of Nitrogen and 10 litre of hydrogen are taken in a reactor and the reaction achieves 50% completion, then what will be the final volume of gases in the vessel ?

One litre of N_(2) and 2 litre of O_(2) under identical conditions of T and P are mixed. Find the volume of mixture if the pressure of the mixture is reduced to half of initial value.

2 mol es of CO and 1 mol e of O_(2) are allowed to react completely to form CO_(2) at 27^(@)C . If the heat liberated during the course of reaction 2CO+O_(2) rarr 2CO_(2) at constant pressure is 560kJ , the amount of heat liberated by carrying the reaction in one litre vessel will be :( Given 1 litre- atm=0.1kJ)

10 litres of O_(2) gas is reacted with 30 litres of CO at S.T.P. The volumes of each gas present at the end of the reaction are

10 litre of O_(2) gas is reacted with 30 litre of CO gas at STP. Then volumes of each gas present at the end of reaction areL

A mixture of 0.3 mole of H_(2) and 0.3 mole of I_(2) is allowed to react in a 10 litre evacuated flask at 500^(@) C. The reaction is H_(2) + I_(2) hArr 2H , the K is found to be 64. The amount of undreacted I_(2) at equilibrium is

MOTION-MOLE CONCEPT-EXERCISE - 4 LEVEL - II

8 litre of hydrogen and 6 litre of Cl(2) are allowed to react to maxim...
Text Solution
|
How many moles of electrons weigh one kilogram? (Mass of electron =9...
Text Solution
|
Calculate the molarity of water if its density is 1000 kg m^(-3)
Text Solution
|
Calculate the amount of calcium oxide required when it reacts with 852...
Text Solution
|
Dissolving 120g of urea (mol wt = 60) in 1000g of water gave a solutio...
Text Solution
|
Reaction of Br(2) with Na(2)CO(3) in aquesous solution gives sodium br...
Text Solution
|
In which of the following number of atoms are maximum ?
Text Solution
|
The siplest formula of a compound containning 50% of element X (at. Wt...
Text Solution
|
The volume (in mL) of 0.1M Ag NO(3) required for complete precipitatio...
Text Solution
|
If the value of Avogadro numberis 6.023xx10^(23)mol^(-1) and the vaueo...
Text Solution
|
A compound H(2)X with molar weigth of 80g is dissolved in a solvent ha...
Text Solution
|
The mole fraction of a solute in a solutions is 0.1. At 298K molarity ...
Text Solution
|
The ammonia prepared by treating ammonium sulphate with calcium hydrox...
Text Solution
|
Galena (an ore) is partially oxidized by passing air through it at hig...
Text Solution
|