From the following graph of log `x//m` us log P, calculate mass of `H_(@)` gas adsorped on the surface of 1gm palladium at pressure of `81 xx 10^(-4)atm`.
[Express answer in gm)

`(x)(M) =` Mass of gas absorbed per unit mass of absorbent.
P = Partial pressure of gas in atm.

A plot of log (x/m) versus log p for the adsorption of a gas on the surface of a solid gives a straight line which slope equal to :

From the graph of (d)/(P) us P at a constant temperature of 300 K. calculate molar mass of the gas.

Select the graph that correctly describes the adsorption isotherms at two temperatures T_(1) and T_(2) (T_(1) gt T_(2)) for a gas : (x — mass of the gas adsorbed m-mass of adsorbent P - pressure)

When a graph is plotted between log x//m and log p, it is straight line with an angle 45^(@) and intercept 0.3010 on y- axis . If initial pressure is 0.3 atm, what wil be the amount of gas adsorbed per gm of adsorbent :

When a graph is pplotted between log x//m and log p, it is straight line with an angle 45^(@) and intercept 0.3010 on y-axis. If initial pressure is 0.3 atm, what will be the amount of gas adsorbed per gm of adsorbent:

Adsorption of a gas follows Freundlich adsorption isotherm. In the given plot,x is the mass of the gas adsorbed on mass m of the adsorbent at pressure P." "(x)/(m) is proportional to:

At a temperature of 180 K, O_(2) gas adsorbs on Pt surface following Freundlich adsorption isotherm. Following experimental data is obtained. where P is partial pressure of gas and x/m is mass of gas adsorbed per gm of platinum. Calculate millimoles of O_(2) adsorbed per gm of platinum at 4 bar pressure and 180 K.

For freundlich adsorption isotherm, a plot of log ( x/m) ( y - axis ) and log p (x-axis) gives a straight line . The intercept and slope for the line is 0.4771 and 2, respectively . The mass of gas , adsorbed per gram of adsorbent if the intital pressure is 0.04 atm , is ________ xx 10^(-4) g. (log 3=0.4771).