Please answer part E. (Highlighted) PES2150 -PHYSICSLABORATORY IIb.) Find the experimental magnification (Mex) from the object distance (d.) and image distance(d:).The Experimental Magnification is -1.7c.) Compare the theoretical magnification to the experimental magnification with a percent errorcalculation.|1.67 – 1.7|%error =x 100% = 1.80%1.7d.) Find the experimental magnification from the object height (h.) and image height (h.).hịExperimental Magnification17= -1.710%3Dhoe.) The two experimental magnifications are geometrically related and should give the sameresults. Explain.Indieate the sooleen vourlodHoum rev dioorom ofthe theoratioal oonficmration PES2.) Using the intercept of your best-fit line, determine the focal length of the lens. Compare thiscalculated value (f) to the stated value of +250 mm with a percent error calculation.0.00394= 253.81 mm|253.81 - 250|%error =x 100% = 1.52%250253.81mm250mmPercent error=1.52%3.) Plotting 1/d vs 1/d seems like a strange thing to plot. Explain why these ratios were chosen.4.) Data collected for the convex lens with the object located at a distance of 400 mm:MagnificationFocal Length f+250 mmObject Distance d,+400 mmImage Distance d680 mmObject Height h,10 mmImage Height hi-17 mma.) Calculate the expected (theoretical) value for the magnification (M) using focal length f)and object distance (d.).1 11f u111= 0.00154002501= 666.670.0015666.67vm =-= -1.67400画

Answered: e.) The two experimental magnifications…

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Advanced Physics

e.) The two experimental magnifications results. Explain. geometrically related and should give the same are

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Question

Please answer part E. (Highlighted)

PES
2150 -
PHYSICS
LABORATORY II
b.) Find the experimental magnification (Mex) from the object distance (d.) and image distance
(d:).
The Experimental Magnification is -1.7
c.) Compare the theoretical magnification to the experimental magnification with a percent error
calculation.
|1.67 – 1.7|
%error =
x 100% = 1.80%
1.7
d.) Find the experimental magnification from the object height (h.) and image height (h.).
hị
Experimental Magnification
17
= -1.7
10
%3D
ho
e.) The two experimental magnifications are geometrically related and should give the same
results. Explain.
Indieate the sooleen vour
lod
Houm rev dioorom ofthe theoratioal oonficmration

PES
2.) Using the intercept of your best-fit line, determine the focal length of the lens. Compare this
calculated value (f) to the stated value of +250 mm with a percent error calculation.
0.00394
= 253.81 mm
|253.81 - 250|
%error =
x 100% = 1.52%
250
253.81
mm
250
mm
Percent error=
1.52
%
3.) Plotting 1/d vs 1/d seems like a strange thing to plot. Explain why these ratios were chosen.
4.) Data collected for the convex lens with the object located at a distance of 400 mm:
Magnification
Focal Length f
+250 mm
Object Distance d,
+400 mm
Image Distance d
680 mm
Object Height h,
10 mm
Image Height hi
-17 mm
a.) Calculate the expected (theoretical) value for the magnification (M) using focal length f)
and object distance (d.).
1 1
1
f u
1
1
1
= 0.0015
400
250
1
= 666.67
0.0015
666.67
v
m =-
= -1.67
400
画

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