Duration: 12:40

1 views

0

Match the columns
Column-I
Column-II
(A) \( \frac{\mathrm{x}}{\mathrm{m}}=\mathrm{kc}^{1 / \mathrm{n}} \)
(p) Adsorption varies directly with pressure
(B) \( \log \frac{\mathrm{x}}{\mathrm{m}}=\log \mathrm{k}+\frac{1}{\mathrm{n}} \log \mathrm{p} \quad \) (q) Adsorption from \( \left(\frac{1}{\mathrm{n}}=0\right) \quad \) solution phase
(C) \( \log \frac{x}{m}=\log \mathrm{k}+\frac{1}{\mathrm{n}} \log \mathrm{p} \)
(r) Freudlich isotherm \( \left(\frac{1}{\mathrm{n}}=1\right) \) cannot be explained
(D) \( \frac{\mathrm{x}}{\mathrm{m}}=\mathrm{kp}^{1 / \mathrm{n}} \)
(s) Adsorption is (high pressure) independent of pressure
(a) \( \mathrm{A}-(\mathrm{q}), \mathrm{B}-(\mathrm{s}), \mathrm{C}-(\mathrm{p}), \mathrm{D}-(\mathrm{r}) \)
(b) \( \mathrm{A}- \) (q), \( \mathrm{B}-(\mathrm{p}), \mathrm{C}-(\mathrm{s}), \mathrm{D}-(\mathrm{r}) \)
(c) \( \mathrm{A}-(\mathrm{r}), \mathrm{B}-(\mathrm{p}), \mathrm{C}-(\mathrm{s}), \mathrm{D}-(\mathrm{q}) \)
(d) \( \mathrm{A}-(\mathrm{r}), \mathrm{B}-(\mathrm{s}), \mathrm{C}-(\mathrm{p}), \mathrm{D}-(\mathrm{q}) \)
📲PW App Link - https://bit.ly/YTAI_PWAP
🌐PW Website - https://www.pw.live