Single Choice

Which of the following salt has the same value of Van't Hoff factor i as that of $$K_3 [Fe(CN)_6]$$?

A$$Al_2(SO_4)_3$$
B$$NaCl$$
C$$Na_2SO_4$$
D$$Al(NO_3)_3$$
Correct Answer

Solution

Van't Hoff factor of $$K_3[Fe(CN)_6]$$

$$K_3[Fe(CN)_6]\rightarrow 3K^+ + [Fe(CN)_6]^-$$
$$i=4$$

$$i_{Al_2(SO_4)_3}=5$$
$$i_{NaCl}=2$$
$$i_{Na_{SO_4}}=3$$
$$i_{Al_2(NO_3)_3}=4$$

thus, the correct answer is D.








SIMILAR QUESTIONS

Solutions

In which case van't Hoff factor is maximum (assuming no hydrolysis)?

Solutions

At same temperature which pair of the following solutions are isotonic?

Solutions

The value of van't Hoff factors for $$KCl, NaCl$$ and $${K}_{2}{SO}_{4}$$, respectively, are :

Solutions

If $$\alpha$$ is the degree of dissociation of $${Na}_{2}{SO}_{4}$$, the vant Hoff's factor ($$i$$) used for calculating the molecular mass is:

Solutions

The Van't Hoff factor, i for a $$0.2$$ molal aqueous solutions of urea is:

Solutions

The Van't Hoff factor for sodium phosphate would be:

Solutions

A $$1.2$$% of solution of $$NaCl$$ is isotonic with $$7.2$$% of solution of glucose. Calculate the van't Hoff's factor of $$NaCl$$ solution.

Solutions

The freezing point of a solution containing 5.85 g of $$NaCl$$ in 100g of water is $$-3.348^o$$C. Calculate van't Hoff factor 'i' for this solution. What will be the experimental molecular weight of NaCI? ($$K_f$$ for water = $$1.86 K kg mol^{-1}$$, at. wt. Na = 23, Cl = 35.5)

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