. A mixture of two liquids with the boiling point of 65 oC and 73 oC has been subjected to separation using a simple distillation technique. Identify ONE (1) reason for the failure of this experiment if the final product still contains the same mixture. State ONE (1) condition for the successful separation using this technique. b. In an experiment, 97.0 % from 1.00 g of solute X was extracted from 50.0 mL of an aqueous phase using two 25.0 mL portions of the organic solvent. Calculate the distribution ratio for solute S.
. A mixture of two liquids with the boiling point of 65 oC and 73 oC has been subjected to separation using a simple distillation technique. Identify ONE (1) reason for the failure of this experiment if the final product still contains the same mixture. State ONE (1) condition for the successful separation using this technique. b. In an experiment, 97.0 % from 1.00 g of solute X was extracted from 50.0 mL of an aqueous phase using two 25.0 mL portions of the organic solvent. Calculate the distribution ratio for solute S.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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A mixture of two liquids with the boiling point of 65 oC and 73 oC has been subjected to separation using a simple distillation technique. Identify ONE (1) reason for the failure of this experiment if the final product still contains the same mixture. State ONE (1) condition for the successful separation using this technique. |
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In an experiment, 97.0 % from 1.00 g of solute X was extracted from 50.0 mL of an aqueous phase using two 25.0 mL portions of the organic solvent. Calculate the distribution ratio for solute S. |
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Transcribed Image Text:Label X and Y of the following apparatus.
с.
X:
Y:
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