Find the following for the object shown below:The locations that can see the top of the image (color this area green)The locations that can see the bottom of the image (color this area red)The locations that can see all of the image (color this area yellow)ObjectCommon mirror question:How large does a plane mirror need to be in order to see your whole body in themirror, from your shoes to the top of your head? Show ray diagrams to support youranswer.

a) To determine image of the given object. b) Length of a mirror to see the whole body in the…

Answered: Find the following for the object shown…

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Two plane mirrors are at an angle of ?1 = 64.5° with each other as in the side view shown in the figure below. If a horizontal ray is incident on mirror 1, at what angle ?2 does the outgoing reflected ray make with the surface of mirror 2?
Part A Where would you find an image from a convex mirror if s→00? Part B Where would you find an image from a concave mirror if s→00? Answer both parts using the following options: a There will be no image (s'→∞). b A real image would be created distance f away from the lens C d e A virtual image would be created distance faway from the lens A real image would be created very close to the mirror's surface (s'→0) A virtual image would be created very close to the mirror's surface (s'→0)
Two plane mirrors are at an angle of 0, = 65.6° with each other as in the side view shown in the figure below. If a horizontal ray is incident on mirror 1, at what angle 0, does the outgoing reflected ray make with the surface of mirror 2? Mirror 1 Mirror 2
A concave mirror produces a real inverted image that is almost exactly as tall as the object itself. If the object is 15.0 cm in front of the mirror: What is center of curvature of the mirror? Show the algebraic form of any equation(s) applied and report all answers with the correct units.
In the figure below, a diverging lens and concave spherical mirror are positioned along an optical axis, with an object half way between the two. The distance between the lens and mirror is d = 23.6 cm. The magnitude of the mirror's radius of curvature is 20.1 cm, and the lens has a focal length of flens = -19.0 cm. Lens Object Mirror (a) Considering only the light that leaves the object and travels first toward the mirror, locate the final image formed by this system. (Give the magnitude of the image distance in cm, and select its location with respect to the lens.) image distance image location -Select--- (b) Is this image real or virtual? O real O virtual (c) Is it upright or inverted? O upright O inverted (d) What is the overall magnification? cm
A physicist places two plane mirrors at an angle of ?1 = 55.5° to each other, as shown below. She then directs a horizontal laser beam toward Mirror 1. The beam reflects twice: first off Mirror 1, then Mirror 2. What angle ?2 will the outgoing beam make with the surface of Mirror 2? (Enter your answer in in degrees.)
please answer the question in the image
An object is placed 12 cm in front of a convex mirror of radius 40 cm. Find the position and magnification of the image. State whether the image is real or virtual, and draw a light ray diagram to show the image.
You have a convex, spherical mirror (as shown below) with a radius of curvature R=3.22m (the distance of the "Radial Line" shown in the image below). You shine light rays that are parallel to the principlal axis of the mirror as shown below that reflect in such a way that it appears all rays originated at the a point called the focal point of the mirror (F). Along the principal axis of the mirror, how far behind the mirror is the focal point (in meters)? It is important to point out that the focal point of convex mirrors, strictly speaking, is negative. This is because the object appears to originate from behind the mirror. Here, don't worry about the negative sign. Give a positive answer. Radial line, normal to mirror surface Principal axis
Two mirrors make an angle of 120° with each other as shown in the Figure below. A ray is incident on Mirror M1 at an angle of 65° to the normal. Find the angle the ray makes with the 2. normal to M2 after it is reflected from both mirrors. Bret Bune ef ine = 65° 120 M1
An astronomer orients two plane mirrors at an angle of 0, = 57.5° to each other, as shown below. He then directs a horizontal laser beam toward Mirror 1. The beam reflects twice: first off Mirror 1, then Mirror 2. What angle 0, will the outgoing beam make with the surface of Mirror 2? (Enter your answer in in degrees.) Mirror 1 Mirror 2