In front of a spherical concave mirror of radius 22.0 cm, you position an object of height 3.20 cm somewhere along the principal axis. The resultant image has a height of 16.00 cm. How far from the mirror is the object located?Question 6 options: 13.2 cm 5.3 cm 15.8 cm 9.2 cmQuestion 7 (5 points) In front of a spherical convex mirror of radius 56.8 cm, you position an object of height 4.53 cm somewhere along the principal axis. The resultant image has a height of 2.72 cm. How far from the mirror is the object located?Question 7 options: 18.9 cm 30.2 cm 22.7 cm 11.3 cmQuestion 8 (5 points) On one side of a converging lens of focal length 47.5 cm, you position an object of height 4.87 cm somewhere along the principal axis. The resultant image has a height of 13.15 cm. How far from the lens is the object located?Question 8 options: 65.1 cm 26.0 cm 78.1 cm 52.1 cmQuestion 9 (5 points) On one side of a diverging lens of focal length 42.6 cm, you position an object of height 3.46 cm somewhere along the principal axis. The resultant image has a height of 2.08 cm. How far from the lens is the object located?Question 9 options: 39.6 cm 22.6 cm 28.3 cm 50.9 cmQuestion 10 (5 points) Please refer to Figure 3, which shows the pattern of interference fringes for light of wavelength 510 nm passing through two narrow slits, projected onto a screen a distance of 2.42 m away. The distance on the screen between the centers of two adjacent bright fringes is 1.56 cm. What is the distance between the two slits?Question 10 options: 6.33E-05 m 7.91E-05 m 1.42E-04 m 1.03E-04 m
In front of a spherical concave mirror of radius 22.0 cm, you position an object of height 3.20 cm somewhere along the principal axis. The resultant image has a height of 16.00 cm. How far from the mirror is the object located?
Question 6 options:
13.2 cm
5.3 cm
15.8 cm
9.2 cm
Question 7 (5 points)
In front of a spherical convex mirror of radius 56.8 cm, you position an object of height 4.53 cm somewhere along the principal axis. The resultant image has a height of 2.72 cm. How far from the mirror is the object located?
Question 7 options:
18.9 cm
30.2 cm
22.7 cm
11.3 cm
Question 8 (5 points)
On one side of a converging lens of focal length 47.5 cm, you position an object of height 4.87 cm somewhere along the principal axis. The resultant image has a height of 13.15 cm. How far from the lens is the object located?
Question 8 options:
65.1 cm
26.0 cm
78.1 cm
52.1 cm
Question 9 (5 points)
On one side of a diverging lens of focal length 42.6 cm, you position an object of height 3.46 cm somewhere along the principal axis. The resultant image has a height of 2.08 cm. How far from the lens is the object located?
Question 9 options:
39.6 cm
22.6 cm
28.3 cm
50.9 cm
Question 10 (5 points)
Please refer to Figure 3, which shows the pattern of interference fringes for light of wavelength 510 nm passing through two narrow slits, projected onto a screen a distance of 2.42 m away. The distance on the screen between the centers of two adjacent bright fringes is 1.56 cm. What is the distance between the two slits?
Question 10 options:
6.33E-05 m
7.91E-05 m
1.42E-04 m
1.03E-04 m
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