A 0.97 m aqueous solution of an ionic compound with the formula MX has a freezin

Question

A 0.97 m aqueous solution of an ionic compound with the formula MX has a freezing point of -2.5 ?C . Calculate the van't Hoff factor (i) for MX at this concentration. A 0.97 m aqueous solution of an ionic compound with the formula MX has a freezing point of -2.5 ?C . Calculate the van't Hoff factor (i) for MX at this concentration. A 0.97 m aqueous solution of an ionic compound with the formula MX has a freezing point of -2.5 ?C . Calculate the van't Hoff factor (i) for MX at this concentration. A 0.97 m aqueous solution of an ionic compound with the formula MX has a freezing point of -2.5 ?C . Calculate the van't Hoff factor (i) for MX at this concentration. A 0.97 m aqueous solution of an ionic compound with the formula MX has a freezing point of -2.5 ?C . A 0.97 m aqueous solution of an ionic compound with the formula MX has a freezing point of -2.5 ?C . A 0.97 m aqueous solution of an ionic compound with the formula MX has a freezing point of -2.5 ?C . Calculate the van't Hoff factor (i) for MX at this concentration. Calculate the van't Hoff factor (i) for MX at this concentration. Calculate the van't Hoff factor (i) for MX at this concentration.

Explanation / Answer

delta Tf = i*Kf*m

i is van,thoff factor, Kf freezing point constant for water it is 1.853.. m is molality given .97 m

delta Tf is 2.5 c

=> 2.5= i*1.853*.97

=>i= 1.4

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