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TUU UUIULIUIT, With a degree of dissocia...

TUU UUIULIUIT, With a degree of dissociation (a) of 0.5. Pression of freezing Cozing point in the absence of ionic dissociation is Oi Treezing point of the aqueous solution to the value of the If the freezing point of a 0.01 molal aqueous solution of a cobalt ilssociation is (JEE(Advanced) 2014,311201 (JEE Advanced behaves as a strong electrolyte) is -0.0558°C. the number of chloride s) us solution of a cobalt(III) chloride-ammonia complex (which the complex is [K, of water = 1.86 K kg mol'] the number of chloride(s) in the coordination sphere of (JEE(Advanced) 2015 41168] Mixture(s) showing positive deviation from Raoult's law at 35°C is(are) (JEE Advan (A carbon tetrachland Raoult's law at 35°C is(are) (JEE(Advanced) 2016, 41124]

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The lowest freezing point of 0.1 M aqueous solution is of:

An electrolyte AB is 50% ionised in aqueous solution. Calculate the freezing point of 1 molal aqueous solution.

An electrolyte AB is 50% ionised in aqueous solution. Calculate the freezing point of 1 molal aqueous solution.

If the freezing point of a 0.01 molal aqueous solution of a cobalt (III) chloride-ammonia complex (which behaves as a strong electrolyte) is -0.0558^(@)C , the number of chloride (s) in the coordination sphere of the complex if [K_(f) of water =1.86 K kg mol^(-1)]

If the freezing point of a 0.01 molal aqueous solution of a cobalt (III) chloride-ammonia complex (which behaves as a strong electrolyte) is -0.0558^(@)C , the number of chloride (s) in the coordination sphere of the complex if [K_(f) of water =1.86 K kg mol^(-1)]

If the freezing point of a 0.01 molal aqueous solution of a cobalt (III) chloride-ammonia complex (which behaves as a strong electrolyte) is -0.0558^(@)C , the number of chloride (s) in the coordination sphere of the complex if [K_(f) of water =1.86 K kg mol^(-1)]

If the freezing point of a 0.01 molal aqueous solution of a cobalt (III) chloride-ammonia complex (which behaves as a strong electrolyte) is - 0.0558^@C , the number of chloride(s) in the coordination sphere of the complex is [K_f of water = 1.86 K kg mol^-1]