If two pure liquid constituents are mixed in any proportion to give an ideal solution, there is no change in____________________?

Related Mcqs:

1. If an ideal solution is formed by mixing two pure liquids in any proportion, then the ___________________ of mixing is zero?

   A. Enthalpy
   B. Volume
   C. Both A. & B.
   D. Neither A nor B

2. The activity co-efficient of a solution, which accounts for the departure of liquid phase from ideal solution behaviour________________?

   A. Measures the elevation in boiling point
   B. Is not dependent on the temperature
   C. Is a function of the liquid phase composition
   D. Measures the depression in freezing point

3. The chemical potential of any constituent of an ideal solution depends on the ______________ of the solution?

   A. Temperature
   B. Pressure
   C. Composition
   D. All (A), B. and (C)

4. 80 kg of Na2SO4 (molecular weight = 142) is present in 330 kg of an aqueous solution. The solution is cooled such that. 80 kg of Na2SO4 .10H2O crystals separate out. The weight fraction of Na2SO4 in the remaining solution is_________________?

   A. 0.00
   B. 0.18
   C. 0.24
   D. 1.00

5. In case of a solution (not of a solid in a liquid), whose total volume is more than the sum of volumes of its components in their pure states, solubility is__________________?

   A. Independent of the temperature
   B. Increased with the increase in pressure
   C. Decreased with the increase in pressure
   D. Unchanged by the pressure change

6. A reasonably general expression for vapour-liquid phase equilibrium at low to moderate pressure is φi yi P = Yi xifi° where, Φ is a vapor fugacity component, Yi is the liquid activity coefficient and fi° is the fugacity of the pure component i. the Ki value (Yi = Ki xi) is therefore, in general a function of ______________________?

   A. Temperature only
   B. Temperature and pressure only
   C. Temperature, pressure and liquid composition xi only
   D. Temperature, pressure, liquid composition xi and vapour composition yi

7. If the heat of solution of an ideal gas in a liquid is negative, then its solubility at a given partial pressure varies with the temperature as__________________?

   A. Solubility increases as temperature increases
   B. Solubility increases as temperature decreases
   C. Solubility is independent of temperature
   D. Solubility increases or decreases with temperature depending on the Gibbs free energy change
   of solution

8. For an ideal liquid solution, which of the following is unity ?

   A. Activity
   B. Fugacity
   C. Activity co-efficient
   D. Fugacity co-efficient

9. Pressure-enthalpy chart is useful in refrigeration. The change in internal energy of an ideal fluid used in ideal refrigeration cycle is_____________________?

   A. Positive
   B. Negative
   C. Zero
   D. Infinity

10. A solution which resists change in its pH value on addition of acid/alkali is called the ____________________ solution?

    A. Neutral
    B. Ideal
    C. Buffer
    D. Zero pH