Thinking about the partial specific volume (v-bar) of a solute and how it plays a role in AUC and analyte sedimentation, which of the following statements are true? (Assume that your solute is in pure water with a density of 1.00g/ml). There are two correct answers. Choose them both. The sedimentation coefficient of a particle with a v-bar of .75 ml/g would be greater than a particle with a v- bar of 1.20ml/g. The sedimentation coefficient of a particle with a v-bar of .75 ml/g would be less than a particle with a v-bar of 1.20ml/g. The particle with a v-bar of .75 ml/g would be more buoyant than a particle with a v-bar of 1.20ml/g. The particle with a v-bar of .75 ml/g would be less buoyant than a particle with a v-bar of 1.20ml/g.
Thinking about the partial specific volume (v-bar) of a solute and how it plays a role in AUC and analyte sedimentation, which of the following statements are true? (Assume that your solute is in pure water with a density of 1.00g/ml). There are two correct answers. Choose them both. The sedimentation coefficient of a particle with a v-bar of .75 ml/g would be greater than a particle with a v- bar of 1.20ml/g. The sedimentation coefficient of a particle with a v-bar of .75 ml/g would be less than a particle with a v-bar of 1.20ml/g. The particle with a v-bar of .75 ml/g would be more buoyant than a particle with a v-bar of 1.20ml/g. The particle with a v-bar of .75 ml/g would be less buoyant than a particle with a v-bar of 1.20ml/g.
Chemistry
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ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Transcribed Image Text:Thinking about the partial specific volume (v-bar) of a solute and how it plays a role in AUC and
analyte sedimentation, which of the following statements are true? (Assume that your solute is in
pure water with a density of 1.00g/ml).
There are two correct answers. Choose them both.
The sedimentation coefficient of a particle with a v-bar of .75 ml/g would be greater than a particle with a v-
bar of 1.20ml/g.
The sedimentation coefficient of a particle with a v-bar of .75 ml/g would be less than a particle with a v-bar
of 1.20ml/g.
The particle with a v-bar of .75 ml/g would be more buoyant than a particle with a v-bar of 1.20ml/g.
The particle with a v-bar of .75 ml/g would be less buoyant than a particle with a v-bar of 1.20ml/g.
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