Column-I | Column-II | ||
[A] | \[\frac{x}{m}=k{{c}^{{1}/{n}\;}}\] | (p) | Adsorption varies directly with pressure |
[B] | \[\log \frac{x}{m}=\log k+\frac{1}{n}\log p\left( \frac{1}{n}=0 \right)\] | (q) | Adsorption from solution phase |
[C] | \[\log \frac{x}{m}=\log k+\frac{1}{n}\log p\left( \frac{1}{n}=1 \right)\] | (r) | Freudlich isotherm cannot be explained |
[D] | \[\frac{x}{m}=k{{p}^{{1}/{n}\;}}\] | (s) | Adsorption is (high pressure) independent of pressure |
A) A\[\to \](q), B\[\to \](s), C\[\to \](p), D\[\to \](r)
B) A\[\to \](q), B\[\to \](p), C\[\to \](s), D\[\to \](r)
C) A\[\to \](r), B\[\to \](p), C\[\to \](s), D\[\to \](q)
D) A\[\to \](r), B\[\to \](s), C\[\to \](p), D\[\to \](q)
Correct Answer: A
You need to login to perform this action.
You will be redirected in
3 sec