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Derive van't Hoff's equation for dilute ...

Derive van't Hoff's equation for dilute solution.

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Derive van't Hoff's equation for the concentration dependence of the osmotic pressure of a non-volatile solute.

The Van't Hoff factor of very dilute solution of Ca(NO_(3))_(2)

We have three aqueous solutions of NaCl labelled as A, B and C with concentration 0.1 M , 0.01 "and" 0.001 M , respectively . The value of van't Hoff factor for these solutions will be in the order :

We have three aqueous solutions of NaCl labelled as A, B and C with concentration 0.1 M , 0.01 "and" 0.001 M , respectively . The value of van't Hoff factor for these solutions will be in the order :

Van't Hoff's equation for a chemical reaction under equilibrium is given by standard reaction enthalpy at temperature T and K is the equilibrium constant . Predict how K will vary with temperature for an exothermic

The electrolyte solutions show abnormal colligative porperties.To account for this effect we define a quantity called the Van't Hoff factor given by i=("Actual number of particles in solution after dissociation")/("Number of formula units initially dissolved in solution") i=1 ("for non-electrolytes") igt1 ("for electrolytes, undergoing dissociation") ilt1 ("for solutes, undergoing association") Answer the following questions: Benzoic acid undergoes dimerization in bezene solution. The Van't Hoff factor i for the solutions is

The electrolyte solutions show abnormal colligative porperties.To account for this effect we define a quantity called the Van't Hoff factor given by i=("Actual number of particles in solution after dissociation")/("Number of formula units initially dissolved in solution") i=1 ("for non-electrolytes") igt1 ("for electrolytes, undergoing dissociation") ilt1 ("for solutes, undergoing association") Answer the following questions: certain substances trimerize when dissolved in a solvent A . The Van't Hoff factor i for the solutions is

Equal volumes of 0.2M KI solution and 0.1M HgI_(2) solution are mixed. Find the van't Hoff factor of the resulting solution.

ICSE-SOLUTIONS-EXERCISE (PART-II Descriptive Questions) (SHORT ANSWER QUESTIONS)
  1. Show that relative lowering of vapour pressure is a colligative prope...

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  2. With the help of suitable diagrams, illustrate the two types of on-ide...

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  3. How does a non-ideal solution differ from an ideal solution ? When do...

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  4. What is meant by positive and negative deviations from Raoult's law a...

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  5. Define elevation in boiling point and show that it is a colligative p...

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  6. Illustrate elevation in boiling point with the help of vapour pressur...

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  7. If DeltaT is the elevation in boiling point of a solvent and m is the...

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  8. Draw the vapour pressure curve explaining depression in freezing poin...

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  9. Derive a formula determining molecular mass from depression in freezi...

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  10. What is osmosis ? What is the difference between osmosis and diffusio...

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  11. Name two inorganic compounds which can be used as semipermeable membr...

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  12. What is meant by semipermeable membrane ? Give one example each for n...

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  13. Derive a formula for determining molecular mass from osmotic pressure...

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  14. Define osmotic pressure of a solution. How is the osmotic pressure ore...

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  15. Derive van't Hoff's equation for dilute solution.

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  16. (a) What is van't Hoff factor? What types of values can it have if in ...

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  17. Show graphically that the freezing point of a liquid will be depresse...

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  18. Show graphically how the vapour pressures of a solvent and a solution...

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  19. Why do we get abnormal molecular masses of the substances using colli...

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  20. Given below is a sketch of a plant for carrying out a process. (...

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