Are There Two Correct Ways to Draw a Reflected Ray in a Mirror?

In summary, the diagram shows two mirrors, an object with white spots at P and Q, and an observer at A. The observer sees an image of P reflected in mirror Y. Mark R, the position of this image, and draw a ray from P to the observer at A. The ray is yellow and the location of the image looks right. However, the actual ray of light from P to A does not pass through the mirror.
  • #1
Mark1991
18
0
Hi!

The diagram below shows two mirrors X and Y, and a solid object with
white spots at P and Q.

http://img199.imageshack.us/img199/9284/unbenanntcwz.jpg


An observer at A sees an image of P reflected in mirror Y. Mark R,
the position of this image, and draw a ray from P to the observer
at A.

Is my ray (yellow) and the location of the image right?

Mark
 
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  • #2
Not quite
The light bounces off the mirror at the same point it hits it and with the same angle from the normal.
ie. the two yellow lines must cross at the surface of the mirror.
 
  • #3
Your image location looks perfect, but realize that the actual ray of light from P to A does not pass through the mirror. :wink:

Oops: mgb_phys beat me to it.
 
  • #4
Ok, another try:

http://img198.imageshack.us/img198/4567/unbenanntbfy.jpg

I was of the opinion that you should draw a ray that goes straight to the image as it would if the mirror were only a glass plane.

So there are in fact two solutions:
The solution with a ray that hits the mirror in one point and bounced off in the same point
and the solution a ray seem to go straight to the image.

I think the observer in A would decide that my first solution is right, wouldn't he?

Mark
 
Last edited by a moderator:
  • #5
That's correct except the horizontal line from P to P' shouldn't be there
 
  • #6
Mark1991 said:
I was of the opinion that you should draw a ray that goes straight to the image as it would if the mirror were only a glass plane.
The reflected ray looks as if it comes straight from the image to the observer, as if you were looking through a window. (Of course, the actual reflected ray begins at the mirror surface.)

The incident ray goes from source to mirror, hitting the mirror at the point where the reflected ray begins.

So there are in fact two solutions:
The solution with a ray that hits the mirror in one point and bounced off in the same point
and the solution a ray seem to go straight to the image.
No, there's only one solution.
 

1. How does a mirror reflect light?

Light is reflected off the smooth surface of a mirror due to the principle of reflection, where the angle of incidence (incoming light) is equal to the angle of reflection (outgoing light). This means that the light bounces off the mirror at the same angle it hits the mirror, resulting in a clear reflection.

2. Can different types of mirrors reflect light differently?

Yes, different types of mirrors can reflect light differently. For example, a concave mirror curves inward and can reflect light to create a magnified or inverted image, while a convex mirror curves outward and can create a smaller, upright image. The type of mirror used depends on the desired reflection.

3. How does the surface of a mirror affect the reflection of light?

The surface of a mirror plays a crucial role in the reflection of light. A smooth and polished surface allows for a clear reflection, while a rough or uneven surface may cause distortion or diffuse reflection. The material of the mirror, such as glass or metal, can also affect the quality of the reflection.

4. What is the difference between specular and diffuse reflection in mirrors?

Specular reflection refers to a clear and sharp reflection of light off a smooth surface, such as a mirror. Diffuse reflection, on the other hand, occurs when light hits a rough or uneven surface and reflects in many different directions, resulting in a blurred or scattered reflection. Mirrors typically exhibit specular reflection.

5. How do mirrors affect the perception of depth in a reflected image?

Mirrors do not affect the perception of depth in a reflected image. The depth perception is solely dependent on the distance between the viewer and the reflected object. However, the angle at which the mirror is tilted can affect the perception of depth, as it can change the perspective of the reflected image.

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