If `D_(T)and D_(o)` are the theoretical and observed vapour densities at a definite temparature and `alpha` be the degree of dissocition of a substance ,then ,`aplha` in the terms of `D_(o),D_(T)` and n (number of moles of products formed formed from 1 mole reactant ) is calculated by the formula :
A
`alpha=(D_(o)-D_(T))/((1-n)D_(T))`
B
`alpha=(D_(T)-D_(o))/((n-1)D_(T))`
C
`alpha=(D_(T)-D_(o))/((n-1)D_(o))`
D
`alpha=(D-D_(T))/((n-1)D_(T))`
Text Solution
Verified by Experts
The correct Answer is:
c
Topper's Solved these Questions
CHEMICAL EQUILIBRIUM
NARENDRA AWASTHI|Exercise Level 1 (Q.93 To Q.122)|1 Videos
CHEMICAL EQUILIBRIUM
NARENDRA AWASTHI|Exercise Level 2|1 Videos
ATOMIC STUCTURE
NARENDRA AWASTHI|Exercise Exercise|273 Videos
DILUTE SOLUTION
NARENDRA AWASTHI|Exercise Level 3 - Match The Column|1 Videos
Similar Questions
Explore conceptually related problems
Consider the following hypothetical equilibrium 2B(g)hArrB_(2)(g) If d is observed vapour density and D is theoretical vapour density, then degree of association (alpha) will be
The equation alpha=(D-d)/((n-1)d) is correctly matched for: ( alpha is the degree of dissociation, D and d are the vapour densities before and after dissociation, respectively).
For the dissociation of PCl_(5) into PCl_(3) and Cl_(2) in gaseous phase reaction , if d is the observed vapour density and D the theoretical vapour density with 'alpha' as degree of dissociation ,variaton of D/d with 'alpha' is given by ?
In a chemical equilibrium A + B hArr C + D, when one mole each of the two reactants are mixed, 0.6 mole each of the products are formed. The equilibrium constant calculated is
