At `27^@C` it was observed during a reaction of hydogenation, that the pressure of hydrogen gas decreasses from 2 atm to 1.1 atm in 75 min. Calculate the rate of reaction (molarity `s^(-1)`) (R = 0.0821 litre atm `mol^(-1)K^(-1)`)

At 27^(@)C it was observed in the hydrogenation of a reaction, the pressure of H_(2)(g) decreases form 10 atm to 2 atm in 10 min . Calculate the rate of reaction in M min^(-1) (Given R = 0.08 L atm K^(-1) mol^(-1) )

For the decompoistion of phosphorus pentachloride at 200^(@)C , it is observed that its pressure falls form 0.15 to 0.10 atm in 25 min . Calculate the average rate of reaction in (a) atm min^(-1) , (b) mol L^(-1) s^(-1)

Under what conditions will a pure sample of an ideal gas not only exhibit a pressure of 1 atm but also a concentration of 1 mol litre^(-1) [R= 0.082 iltre atm mol^(-1)K^(-1)]

A 0.15 M aqueous solution of KCl exerts an osmotic pressure of 6.8 atm at 310 K. Calculate the degree of dissociation of KCl. (R = 0.0821 Lit. atm K^(-1)"mol"^(-1) ).

The hydrogenation of vegetable ghee at 25^(@)C reduces the pressure of H_(2) form 2 atm to 1.2 atm in 50min . Calculate the rate of reaction in terms of change of (a) Pressure per minute (b) Molarity per second

The volume of 2.8g of CO at 27^(@)C and 0.821 atm pressure is (R=0.0821 lit. atm mol^(-1)K^(-1))

For the reaction at 273 K NO(g) + O_(3)(g) rarr NO_(2)(g) + O_(2)(g) It is observed that the pressure of NO(g) falls form 700 mm Hg to 500 mm Hg in 250 s . Calculate the average rate of reaction in (a) atm s^(-1) , (b) mol L^(-1) s^(-1) .

The solution containing 10 g of an organic compound per litre showed an osmotic pressure of 1.18 atm at 0^(@)C . Calculate the molecular mass of the compound "(R=0.0821 litre atm per degree per mol)"

Work done during isothermal expansion of one mole of an ideal gas from 10 atm to 1atm at 300 k is

For a 5% solution of urea (Molar mass - 60 g/mol), calculate the osmotic pressure at 300 K. [R = 0.0821 L atm K^(-1) mol^(-1)]