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11 Nov 2019
a. The equilibrium constant, Ke, is to be determined from the following set of data. Based upon the data, equations significant figures. values with the correct number of B. Absorbance for the set of Test Solutions Calculation Zone Molar concentration of Fe(NO3)1 Molar concentration of NaSCN B.1 Volume of Fe(NO) (mL.) B.2 Moles of Re, initial (mol) B.3 Volume of NaSCN (mL) B.4 Moles of SCN, initial (mol) 2.00 Ã 10-3 molL 2.00 Ã 10-3 mol/L 5.00 M Part B.2 Part B.4 4.00 C. Calculation of Ke (Note: all of the test solutions are diluted to 10 mL with 0.1 M HNO) Show calculations in the spacing provided. C.1 [FeSCN equilibrium C.2 Moles of FeSCN at equilibrium (10 mL) (mol) C.3 Moles of Fe", reacted (molC6 Moles of SCN, reacted (mol) C.4 Moles of Fe". equilibrium (mol)C.7 Moles of SCN",equilibrium (mol) C.5 [Fe 1. equilibrium (unreacted),C 15x103 C.8 ISCN 1, equlibrium (unreacted) (10 mL), (moUL) (10 mL), (mol/L)
a. The equilibrium constant, Ke, is to be determined from the following set of data. Based upon the data, equations significant figures. values with the correct number of B. Absorbance for the set of Test Solutions Calculation Zone Molar concentration of Fe(NO3)1 Molar concentration of NaSCN B.1 Volume of Fe(NO) (mL.) B.2 Moles of Re, initial (mol) B.3 Volume of NaSCN (mL) B.4 Moles of SCN, initial (mol) 2.00 Ã 10-3 molL 2.00 Ã 10-3 mol/L 5.00 M Part B.2 Part B.4 4.00 C. Calculation of Ke (Note: all of the test solutions are diluted to 10 mL with 0.1 M HNO) Show calculations in the spacing provided. C.1 [FeSCN equilibrium C.2 Moles of FeSCN at equilibrium (10 mL) (mol) C.3 Moles of Fe", reacted (molC6 Moles of SCN, reacted (mol) C.4 Moles of Fe". equilibrium (mol)C.7 Moles of SCN",equilibrium (mol) C.5 [Fe 1. equilibrium (unreacted),C 15x103 C.8 ISCN 1, equlibrium (unreacted) (10 mL), (moUL) (10 mL), (mol/L)
Jamar FerryLv2
7 Oct 2019