4. An object with a height of h = 9.00 cm is placed a distance of s1 = 28.0 cm in front of a concave mirror with a focal length of f = 10.2 cm. A convex refracting surface is located a distance of L = 39.4 cm in front of the mirror as shown. The refracting surface has a radius of R = 7.05 cm and an index of refraction of n = 1.91. The mirror and refracting surfaces are surrounded by air. Where will the refracting surface form a secondary image from the image created by the mirror? What is the height and type of this image? object optical axis

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Please help solve. The correct answer for this problem is 22.1 cm inside refracting surface and m_tot = 0.284 with the image real and upright. 

4. An object with a height of h = 9.00 cm is placed a distance of s, = 28.0 cm in front of a concave
mirror with a focal length of f = 10.2 cm. A convex refracting surface is located a distance of L =
39.4 cm in front of the mirror as shown. The refracting
surface has a radius of R = 7.05 cm and an index of
refraction of n = 1.91. The mirror and refracting surfaces
are surrounded by air. Where will the refracting surface
form a secondary image from the image created by the
mirror? What is the height and type of this image?
object
optical axis
Transcribed Image Text:4. An object with a height of h = 9.00 cm is placed a distance of s, = 28.0 cm in front of a concave mirror with a focal length of f = 10.2 cm. A convex refracting surface is located a distance of L = 39.4 cm in front of the mirror as shown. The refracting surface has a radius of R = 7.05 cm and an index of refraction of n = 1.91. The mirror and refracting surfaces are surrounded by air. Where will the refracting surface form a secondary image from the image created by the mirror? What is the height and type of this image? object optical axis
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