0.1 M NaCl and `0.1 M CH_(3)COOH` are kept in separate containers. If their osmotic pressures are `P_(1)` and `P_(2)` respectively then what is the correct statement ?

(M)/(20) NaCl and (M)/(20) CH_(3)COOH are kept in separate containers. If their osmotic pressure are P_(1) and P_(2) respectively . What is the correct statement ?

Two solutions of KNO_(3) and CH_(3)COOH are prepared separately. Molarity of both is 0.1M and osmotic pressure are P_(1) and P_(2) respectively. The correct relationship between the osmotic pressure is :

Two solutions of KNO_(3) and CH_(3)COOH are prepared separately. The molarity of both is 0.1 M and osmotic pressure is P_(1) and P_(2) , respectively. The correct relationship between the osmotic pressure is

1 mole of each of X_(1),X_(2),X_(3) with van der Waal's constants a (in atm L^(3) mol^(-2) ) 1.0, 3.8, 2.1 respectively is kept separately in three different vessels of equal volume at identical temperature. Their pressures are observed to P_(1),P_(2), and P_(3) respectively. On the basis of this data alone, select the correct option (neglect the effect of 'b') :

Three containes of the same volume contain three different gases. The masses of the molecules are m_(1), m_(2) and m_(3) and the number of molecules in their respective containers are N_(1), N_(2) and N_(3) . The gas pressure in the containers are P_(1), P_(2) and P_(3) respectively. All the gases are now mixed and put in one of the containers. The pressure P of mixture will be

The pH of a 0.1 M CH_(3)COOH which is 2% ionised in aqueous solution is

The osmotic pressure of 0.1 M glucose and 0.1 M sucrose solution are the same because