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Pre-lab exercise 1) The table below from Part 1 illustrates the dilution processes required for creating the dilute standard solutions. Given that the stock solution was made from 0.050 g quercetin in a 250 mL volumetric flask, calculate the quercetin concentration in the initial stock solution and show your working below on how the dilution processes below resulted in the stated quercetin concentrations ranging from 4-32 mg/L. Concentration of quercetin (mg/L) 0 (blank) 4 8 16 24 32 Dilution with deionised water Pure deionised water 1 mL of stock solution to 50 mL 2 mL of stock solution to 50 mL 4 mL of stock solution to 50 mL 6 mL of stock solution to 50 mL 8 mL of stock solution to 50 mL

Pre-lab exercise 1) The table below from Part 1 illustrates the dilution processes required for creating the dilute standard solutions. Given that the stock solution was made from 0.050 g quercetin in a 250 mL volumetric flask, calculate the quercetin concentration in the initial stock solution and show your working below on how the dilution processes below resulted in the stated quercetin concentrations ranging from 4-32 mg/L. Concentration of quercetin (mg/L) 0 (blank) 4 8 16 24 32 Dilution with deionised water Pure deionised water 1 mL of stock solution to 50 mL 2 mL of stock solution to 50 mL 4 mL of stock solution to 50 mL 6 mL of stock solution to 50 mL 8 mL of stock solution to 50 mL

Introductory Chemistry For Today
Introductory Chemistry For Today
8th Edition
ISBN:9781285644561
Author:Seager
Publisher:Seager
Chapter7: Solutions And Colloids
Section: Chapter Questions
Problem 7.108E
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Pre-lab exercise 1) The table below from Part 1 illustrates the dilution processes required for creating the dilute standard solutions. Given that the stock solution was made from 0.050 g quercetin in a 250 mL volumetric flask, calculate the quercetin concentration in the initial stock solution and show your working below on how the dilution processes below resulted in the stated quercetin concentrations ranging from 4-32 mg/L. Concentration of quercetin (mg/L) 0 (blank) 4 8 16 24 32 Dilution with deionised water Pure deionised water 1 mL of stock solution to 50 mL 2 mL of stock solution to 50 mL 4 mL of stock solution to 50 mL 6 mL of stock solution to 50 mL 8 mL of stock solution to 50 mL
Transcribed Image Text:Pre-lab exercise 1) The table below from Part 1 illustrates the dilution processes required for creating the dilute standard solutions. Given that the stock solution was made from 0.050 g quercetin in a 250 mL volumetric flask, calculate the quercetin concentration in the initial stock solution and show your working below on how the dilution processes below resulted in the stated quercetin concentrations ranging from 4-32 mg/L. Concentration of quercetin (mg/L) 0 (blank) 4 8 16 24 32 Dilution with deionised water Pure deionised water 1 mL of stock solution to 50 mL 2 mL of stock solution to 50 mL 4 mL of stock solution to 50 mL 6 mL of stock solution to 50 mL 8 mL of stock solution to 50 mL
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