Homework Solution: The freezing point of distilled water was determined by recording a thermogram…

    0906170625 jpy Pholos 2. The freezing point of distilled water was determined by recording a thermogram (see plot below) The freezing point of a 0.200 m solution containing an unknown, ionic compound was determined by recording a second thermogram. Freezing Point for Water and Unknown Ionic Solution 1.25 -0.176 0.25 -bric Solution Water 100 200 E -0.75 1.75 -0.904 C Time, s 6-28 AM 96/2017
    The freezing point of distilled water was determined by recording a thermogram (see plot on pg. 222). The freezing point of a 0.200 m solution containing an unknown, ionic compound was determined by recording a second thermogram (see same plot on pg. 222). a) Determine the freezing point depression, Δ Tf, for the ionic solution. b) Determine the van't Hoff factor, i, for the ionic compound.
    t0906170625 jpy Pholos 2. The freezing point of distilled water was determined by recording a thermogram (see plot below) The freezing point of a 0.200 m solution containing an unknown, ionic compound was determined by recording a second thermogram. Freezing Point for Water and Unknown Ionic Solution 1.25 -0.176 0.25 -bric Solution Water 100 200 E -0.75 1.75 -0.904 C Time, s 6-28 AM 96/2017

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    0906170625 jpy Pholos 2. The freezing sharp-end of distilled impart was rooted by recording a thermogram (behold conspire beneath) The freezing sharp-end of a 0.200 m elucidation containing an hidden, ionic mixture was rooted by recording a prevent thermogram. Freezing Sharp-end ce Impart and Hidden Ionic Elucidation 1.25 -0.176 0.25 -bric Elucidation Impart 100 200 E -0.75 1.75 -0.904 C Time, s 6-28 AM 96/2017

    The freezing sharp-end of distilled impart was rooted by recording a thermogram (behold conspire on pg. 222). The freezing sharp-end of a 0.200 m elucidation containing an hidden, ionic mixture was rooted by recording a prevent thermogram (behold similar conspire on pg. 222).

    a) Determine the freezing sharp-end hollow, Δ Tf, ce the ionic elucidation.

    b) Determine the van’t Hoff element, i, ce the ionic mixture.

    t0906170625 jpy Pholos 2. The freezing sharp-end of distilled impart was rooted by recording a thermogram (behold conspire beneath) The freezing sharp-end of a 0.200 m elucidation containing an hidden, ionic mixture was rooted by recording a prevent thermogram. Freezing Sharp-end ce Impart and Hidden Ionic Elucidation 1.25 -0.176 0.25 -bric Elucidation Impart 100 200 E -0.75 1.75 -0.904 C Time, s 6-28 AM 96/2017

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