Table W2. Formation of a Magnified Image using a Combination of Two Lenses Distance of object from convex lens 1, so1 5cm Calculated distance of first image from convex lens 1, s Description of first image Distance of convex lens 1 from convex lens 2, d 15 cm Calculated distance of first image from convex lens 2, soa Distance of final image from convex lens 2, sa 30 cm Measured magnification of final image, [M] 3.05 Description of final image
Table W2. Formation of a Magnified Image using a Combination of Two Lenses Distance of object from convex lens 1, so1 5cm Calculated distance of first image from convex lens 1, s Description of first image Distance of convex lens 1 from convex lens 2, d 15 cm Calculated distance of first image from convex lens 2, soa Distance of final image from convex lens 2, sa 30 cm Measured magnification of final image, [M] 3.05 Description of final image
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![Table W1. Focal Lengths, and Image Description (real/virtual, magnified/reduced, up-
right/inverted) of the Convex Lens
Convex Lens 1
Convex Lens 2
Trial
3
4
2
3
So (cm)
17
13
20
11.5
25
37
20
58.5
s, (cm)
S (cm)
13
17
11.5
20
37
25
58.5
20
Image
Description
Best Estimate
7.5 cm
15 cm
Theoretical
Focal Length
Percent
Deviation
Table W2. Formation of a Magnified Image using a Combination of Two Lenses
Distance of object from convex lens 1, so.1
5 cm
Calculated distance of first image from convex lens 1, s1
Description of first image
Distance of convex lens 1 from convex lens 2, d
15 cm
Calculated distance of first image from convex lens 2, so2
Distance of final image from convex lens 2, s,2
30 cm
Measured magnification of final image, M]
3.05
Description of final image
Table W3. Concave-Convex Lens 1 Combination (In Contact)
Distance of object from the lenses
30.5 cm
Distance of image from the lenses
21.5 cm
Equivalent focal length of the lenses
Calculated magnification of the image
Measured magnification of final image
-0.778
Experimental focal length of the concave lens](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff39284fa-e5bd-4348-bb40-1da50a088808%2F1b734462-cd50-4179-a043-7bdd59d49d21%2Feh608he_processed.png&w=3840&q=75)
Transcribed Image Text:Table W1. Focal Lengths, and Image Description (real/virtual, magnified/reduced, up-
right/inverted) of the Convex Lens
Convex Lens 1
Convex Lens 2
Trial
3
4
2
3
So (cm)
17
13
20
11.5
25
37
20
58.5
s, (cm)
S (cm)
13
17
11.5
20
37
25
58.5
20
Image
Description
Best Estimate
7.5 cm
15 cm
Theoretical
Focal Length
Percent
Deviation
Table W2. Formation of a Magnified Image using a Combination of Two Lenses
Distance of object from convex lens 1, so.1
5 cm
Calculated distance of first image from convex lens 1, s1
Description of first image
Distance of convex lens 1 from convex lens 2, d
15 cm
Calculated distance of first image from convex lens 2, so2
Distance of final image from convex lens 2, s,2
30 cm
Measured magnification of final image, M]
3.05
Description of final image
Table W3. Concave-Convex Lens 1 Combination (In Contact)
Distance of object from the lenses
30.5 cm
Distance of image from the lenses
21.5 cm
Equivalent focal length of the lenses
Calculated magnification of the image
Measured magnification of final image
-0.778
Experimental focal length of the concave lens
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