test tube mL Nickel standard ML 0.6 m H2SO4 blank 10.0 mL 2.0 mL 8.0 mL 2 4.0mL l6.0 mL 3 l6.0 mL 4.0 mL 4 8.0 mL 2.0 mL 10.0 mL 6-> fee board to the foft rmglme (10.0 mL) (62mg/mY20 mL) = M, (10.0mL) changes with TT

Chemistry
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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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test tube
mL Nickel standard
ML 0.6 m H2 S O4
blank
10.0 mL
2.0 mL
8.0mL
2
4.0mL
lo.0 mL
3
l6.0 mL
4.0 mL
4
8.0 mL
2.0 mL
10.0 mL
6> fee board to the left
rmglme
( ) = M, (10.0 mL)
62mg/mL)(20 mL)
Changes
with TT
Transcribed Image Text:test tube mL Nickel standard ML 0.6 m H2 S O4 blank 10.0 mL 2.0 mL 8.0mL 2 4.0mL lo.0 mL 3 l6.0 mL 4.0 mL 4 8.0 mL 2.0 mL 10.0 mL 6> fee board to the left rmglme ( ) = M, (10.0 mL) 62mg/mL)(20 mL) Changes with TT
218
Laboratory 17
Calculation of the Mole of Coordinated Ammonia Per Gram of Complex
The difference between the mole of HCl used to dissolve the complex and the mole of
NaOH used in the titration equals the mole of ammonia coordinated to Ni²+ in the complex.
Mole of coordinated ammonia:
4.2518
Mole of coordinated ammonia per gram of complex: . d504 mole NH,/g
Part III: Analysis of Nickel(11) in the Nickel Complex
Concentration of standard Ni2+ solution:le2
Mass of nickel complex used to prepare 50 mL of solution:
mg Ni2•/mL
Record all values in the table to three significant figures.
TEST TUBE
NUMBER
CONCENTRATION OF Ni2 IN mg/mL % TRANSMITTANCE
ABSORBANCE
12
1
0139
0, 232
3
e.323
0.410
D. 6 26
6
to be calculated
0323
Slope:
R2:
(Enter these values from the Regression Analysis computer program. 3 sig. figs. & use units)
Concentration of Ni2+ in solution of complex:
mg Ni2+/mL
Mass of Ni2+ in 50 mL of solution of complex:
g Ni2+
Number of mole of Ni2+ in dissolved sample:
mole Ni2+
(atomic weight of Ni = 58.71)
Number of mole of Ni2+ in 1.00 g of complex:
mole Ni2+/g
Transcribed Image Text:218 Laboratory 17 Calculation of the Mole of Coordinated Ammonia Per Gram of Complex The difference between the mole of HCl used to dissolve the complex and the mole of NaOH used in the titration equals the mole of ammonia coordinated to Ni²+ in the complex. Mole of coordinated ammonia: 4.2518 Mole of coordinated ammonia per gram of complex: . d504 mole NH,/g Part III: Analysis of Nickel(11) in the Nickel Complex Concentration of standard Ni2+ solution:le2 Mass of nickel complex used to prepare 50 mL of solution: mg Ni2•/mL Record all values in the table to three significant figures. TEST TUBE NUMBER CONCENTRATION OF Ni2 IN mg/mL % TRANSMITTANCE ABSORBANCE 12 1 0139 0, 232 3 e.323 0.410 D. 6 26 6 to be calculated 0323 Slope: R2: (Enter these values from the Regression Analysis computer program. 3 sig. figs. & use units) Concentration of Ni2+ in solution of complex: mg Ni2+/mL Mass of Ni2+ in 50 mL of solution of complex: g Ni2+ Number of mole of Ni2+ in dissolved sample: mole Ni2+ (atomic weight of Ni = 58.71) Number of mole of Ni2+ in 1.00 g of complex: mole Ni2+/g
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