An aqueous solution containing 5.00 g of solute X in 100. mL is extracted five times with 25.0 mL portions of organic solvent A each. What is the total amount of solute X that will be extracted by the solvent A. Given Ksolvent A/water = 3.75
An aqueous solution containing 5.00 g of solute X in 100. mL is extracted five times...
5) A 100.0 mL aqueous solution containing 2.50 g of compound Z results is extracted with 25.0 mL of ethyl acetate. The ethyl acetate is evaporated to yield 0.95 g of compound Z. 4 points Calculate the partition coefficient (also known as the distribution coefficient) K, for compound Z in ethyl acetate and water, where K = (concentration of Z in diethyl ether) + (concentration of Z in water): Calculations Answer
0.070 g of caffeine is dissolved in 4.0 mL of water. The caffeine is extracted from the aqueous solution three times in 2.0 mL portions of methylene chloride. Calculate the total amount of caffeine that can be extracted into the three portions of methylene chloride. Caffeine has a distribution coefficient of 4.6, between methylene chloride and water.
A solution containing 105 mg of compound C in 1.0 mL of water is to be extracted with CH2Cl2. The distribution coefficient of C between CH2Cl2 and water is 1.5. Note that compound C is more soluble in CH2Cl2. Part 4: Total amount of compound C removed from the aqueous solution after three 0.70 mL extractions with CH2Cl2. In Asolution containing 105 mg of compound C in 1.0 mL of water is to be extracted with CH2C12. The distribution coefficient...
In this experiment, 0.170 g of caffeine is dissolved in 10.0 mL of water. The caffeine is extracted from the aqueous solution three times with 5.0-mL portions of methylene chloride. Calculate the total amount of caffeine that can be extracted into the three portions of methylene chloride (see Technique 12, Section 12.2). Caffeine has a distribution coefficient of 4.6 between methylene chloride and water.In this experiment, 0.170 g of caffeine is dissolved in 10.0 mL of water. The caffeine is...
A 2.30 M aqueous solution of LiCI has a density of 1.0516 g/mL. If the total mass of the solution is 62.0 g, what masses of solute and solvent are present? Mass of LiCl Mass of water
100 mL of aqueous solution containing 2,4,6-trinitrotoluene (TNT) at an initial concentration of 0.05 ppm is shaken with 10 mL hexane. After the phase separation, it was determined that the organic phase has 0.4 ppm. What is the partition coefficient, and what is the percent extracted? If the equilibrium concentration (rather than initial concentration) is 0.05 ppm, this would simplify the calculation. What would then be the partition coefficient and percent extracted? (Please answer or provide something for the second...
In this experiment, 0.070 g of caffeine is dissolved in 4.0 ml of water. The caffeine is extracted for the aqueous solution 3 times with 2.0 ml portions of methylene chloride. The methylene chloride extracts are combined and the solvent evaporated resulting in isolated caffeine crystals. Briefly explain why caffeine will prefer the methylene chloride solvent to the water solvent. You need to draw the structures for all three compounds.
calculate the molality of the solute in a solution containing 8.82 g MgNH4PO4 in 250.0mL of solvent. Assume the density of the solvent is 1.00 g/mL.
II. Solve the following numerical: 1. An aqueous solution of a valuable solute © with an initial concentration 1.2 weight % subjected to a liquid liquid extraction with a solvent with which it is immiscible. The equilibrium data under the operating conditions are given below. (20 marks) (0) Represent the process by a neat Block diagram. (ii) Determine the Composition of the extract and raffinate phase if 600 kg of feed solution is extracted once with 700 kg solvent. Estimate...
An aqueous CaCl2 solution has a vapor pressure of 80.2 mmHg at 50 ∘C. The vapor pressure of pure water at this temperature is 92.6 mmHg. What is the concentration of CaCl2 in mass percent? A hypothetical solution forms between a solid and a liquid. The values of the thermodynamic quantities involved in the process are shown in the following table. Action Enthalpy separation of solute 11.5 kJ/mol separation of solvent 21.8 kJ/mol formation of solute-solvent interactions -86.7 kJ/mol solute...