2) If an unknown Cu*2 solution has an absorbance of .62, a) Find its molarity graphically: A M b) Using the equation of a line: y = mx + b for Beer's Law, A = (slope)M + 0 So, M = A/slope Measure the slope from your graph:

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How would I do question 2 given the graph I drew and the experimental data shown? Please do part a and part b. Thank you.

Absorbance
:-
Beer's Law
Beer's Law Plot
Beer's Law Plot
1.40
yob
1.20
1.00
0.80
0.60
0.40
Absorbance
0.20
0.00
.02
.04
.06
.08
.1
Concentration (M)
Experimental Data:
[Cu*2]
.100 M
Absorbance
1.20
.080 M
0.97
.060 M
0.70
M
.040 M
0.50
.020 M
0.25
[Cu*2] unknown: Method a =
Method b =
.000 M
0.00
Transcribed Image Text:Absorbance :- Beer's Law Beer's Law Plot Beer's Law Plot 1.40 yob 1.20 1.00 0.80 0.60 0.40 Absorbance 0.20 0.00 .02 .04 .06 .08 .1 Concentration (M) Experimental Data: [Cu*2] .100 M Absorbance 1.20 .080 M 0.97 .060 M 0.70 M .040 M 0.50 .020 M 0.25 [Cu*2] unknown: Method a = Method b = .000 M 0.00
2) If an unknown Cu*2 solution has an absorbance of .62,
a) Find its molarity graphically:
A
M
b) Using the equation of a line:
y = mx + b
for Beer's Law, A = (slope)M + 0
So, M = A/slope
Measure the slope from your graph:
A
Ay
Ax
M
Transcribed Image Text:2) If an unknown Cu*2 solution has an absorbance of .62, a) Find its molarity graphically: A M b) Using the equation of a line: y = mx + b for Beer's Law, A = (slope)M + 0 So, M = A/slope Measure the slope from your graph: A Ay Ax M
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