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V.Give the structure of EDTA chelated with a calcium ion, then indicate the binds involved VI. Conclusion

V.Give the structure of EDTA chelated with a calcium ion, then indicate the binds involved VI. Conclusion

Chemistry
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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Answer the following.

Only V and VI

V.Give the structure of EDTA chelated with a calcium ion, then indicate the binds involved

VI. Conclusion

 

Activity 4.2. Preparation and Standardization of 0.05 M Disodium BhylenedlamInetetraacetate I. Principle Direct compler.ometry II. Procedure: Preparation (prepare '/2 formulation) 1. Dissolve 18.6 g of disodium ethylenediaminetetraacetate in 1000 ml water, Standardization (prepare whole formulation, perform three trials) 1. Weigh accurately about 200 mg of chelometric standard calcium carbonate, 2. Transfer to a 400-ml beaker, add 10 ml of water and swirl to form a slurrY. 3. Cover the beaker with a watch glass and introduce 2 ml of diluted hydrochloric acid from a pipet inserted between the lip of the beaker and the edge of the watch glass. 4. Swirl the contents of the beaker to dissolve the calcium carbonate. 5. Wash down the sides of the beaker, the outer space of the pipet and the watch glass wiIh water and dilute with wate to about 100 ml. 6. With stirring the solution, add about 30 ml of disodium ethylenediarninetetraacetate solution from a 50 ml burette. 7. Add 15 ml of sodium hydroxide TS and 300 mg of hydroxynaphthol blue indicator, The addition of the indicator wMl turn the colorless solution to a dark purple color. 8. Continue the titration with the disodium EDTA solution to a distinct blue end point, 9. Record the data of the first trial, then conduct two more trials. 10. Calculate the molarity for each trial, then the average molarlity. III. Data and Results T1 T2 T3 Analyte (Calcium carbonate) Added volume of titrant (Disodium EDTA) Final volume of titrant (Disodium EDTA) Computed Molarity Average Molarity 6.3 ml 7.1 5.9ml Titer value: IV. Computation Finai volume of titrant is done by adding the initial 30 ml of EDTA plus the volume to obtain the end point. * Molarity can be solved using the formula: wt of anulyte (MW unalyte xLof EDTA) M = g Ca C03 ~ 200mg 200mg 2x1660 =0. @T3 Vig = 1545.1- 20.9 ml M = 0•lg (0x 20.9 1000 :0 0478mol 30 + 6.3 =21.3ml -2 %3D M=0-Lg Cooglmol x21 Grd 10. 6469M e t2 Ave M- 0.0969+ 0.0452 +0.047% 0,0966M VR = 15+ 7.1= |22.1ml M= 0.1 (00 X0.0221 %3D = 0.0952ml titer Value = 0.6ao MXL00=14,6lng V. Draw the structure of EDTA chelated with a calcium ion, then indicate the bonds involved. VI. Conclusion Saint Louis University - Department of Phormacy Pharm 121 Laboratory| 17 CS Scanned with CamScanner
Transcribed Image Text:Activity 4.2. Preparation and Standardization of 0.05 M Disodium BhylenedlamInetetraacetate I. Principle Direct compler.ometry II. Procedure: Preparation (prepare '/2 formulation) 1. Dissolve 18.6 g of disodium ethylenediaminetetraacetate in 1000 ml water, Standardization (prepare whole formulation, perform three trials) 1. Weigh accurately about 200 mg of chelometric standard calcium carbonate, 2. Transfer to a 400-ml beaker, add 10 ml of water and swirl to form a slurrY. 3. Cover the beaker with a watch glass and introduce 2 ml of diluted hydrochloric acid from a pipet inserted between the lip of the beaker and the edge of the watch glass. 4. Swirl the contents of the beaker to dissolve the calcium carbonate. 5. Wash down the sides of the beaker, the outer space of the pipet and the watch glass wiIh water and dilute with wate to about 100 ml. 6. With stirring the solution, add about 30 ml of disodium ethylenediarninetetraacetate solution from a 50 ml burette. 7. Add 15 ml of sodium hydroxide TS and 300 mg of hydroxynaphthol blue indicator, The addition of the indicator wMl turn the colorless solution to a dark purple color. 8. Continue the titration with the disodium EDTA solution to a distinct blue end point, 9. Record the data of the first trial, then conduct two more trials. 10. Calculate the molarity for each trial, then the average molarlity. III. Data and Results T1 T2 T3 Analyte (Calcium carbonate) Added volume of titrant (Disodium EDTA) Final volume of titrant (Disodium EDTA) Computed Molarity Average Molarity 6.3 ml 7.1 5.9ml Titer value: IV. Computation Finai volume of titrant is done by adding the initial 30 ml of EDTA plus the volume to obtain the end point. * Molarity can be solved using the formula: wt of anulyte (MW unalyte xLof EDTA) M = g Ca C03 ~ 200mg 200mg 2x1660 =0. @T3 Vig = 1545.1- 20.9 ml M = 0•lg (0x 20.9 1000 :0 0478mol 30 + 6.3 =21.3ml -2 %3D M=0-Lg Cooglmol x21 Grd 10. 6469M e t2 Ave M- 0.0969+ 0.0452 +0.047% 0,0966M VR = 15+ 7.1= |22.1ml M= 0.1 (00 X0.0221 %3D = 0.0952ml titer Value = 0.6ao MXL00=14,6lng V. Draw the structure of EDTA chelated with a calcium ion, then indicate the bonds involved. VI. Conclusion Saint Louis University - Department of Phormacy Pharm 121 Laboratory| 17 CS Scanned with CamScanner
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