Cylindrical Mirror - This cylindrical mirror lets you see yourself as others see you.

 

 

Cylindrical Mirror

 

This cylindrical mirror lets you see yourself as others see you.

A flat mirror will always reflect an image that is right-side up and reversed right to left. A cylindrical mirror can produce images that are flipped upside down and images that are not reversed. The image you see in a cylindrical mirror depends on the orientation of the mirror and the distance between you and the mirror. 

 

• One 81/2 x 11 inch (22 x 28 cm) sheet of aluminized Mylar™.
• 1 transparent page protector (available in stationery stores).
• Construction paper or other stiff paper backing.

(15 minutes or less)

Put the stiff paper backing behind the Mylar™ and slide them both into the transparent page protector. Bend the Mylar™ to form a portion of a cylinder. When you bend the Mylar™, be sure that the long side is parallel to the axis of the cylinder.

Hold the cylindrical mirror so that its long axis is horizontal. Curve the Mylar™ slightly and look into the mirror. Position yourself so that you can clearly see a reflection of your face. Notice how the image changes when you move closer to or farther from the mirror. When you move far enough away from the mirror, your image will flip upside down.

Wink your right eye. Which eye does the image wink? The image may wink its left eye or its right eye, depending on how far your face is from the mirror. When you are close to the mirror and your image is right-side up, the image winks its left eye. When it is upside down, the image winks its right eye. (If you have trouble deciding which eye the image is winking, have someone stand beside the mirror and do what the image does - that is, wink the same eye as the image. Then ask your partner if he or she is winking the right or left eye. If the image is upside down, your partner will have to turn upside down, too. Your partner can bend over at the waist and look at you between the legs.)

Now orient the cylindrical mirror so that its long axis is vertical. Notice how the image changes when you move closer to and farther from the mirror. Wink your right eye and notice how the image in the mirror responds. When you are close, the image will wink its left eye. When you are far away, it will wink its right eye.

You see the world because light gets into your eyes. You see these words, for example, because light reflecting from this page enters your eyes and makes an image on your retina.
When you make a visual picture of the world, you assume that the light entering your eyes has traveled in a straight line to reach you. But mirrors and other shiny objects change the path of the light, bouncing it back in an organized fashion. When you look into a mirror, you see your image because light reflecting from your face bounces off the mirror and back into your eyes. Your eyes and brain assume that the light has traveled in a straight line to reach your eyes, so you see an image of your face out there in front of or behind the mirror.


What you see in a mirror depends on how the light bounces off the mirror and into your eyes. When light hits a mirror, it bounces off in the same way that a ball would bounce off the mirror. If you threw a ball straight at a flat mirror, it would bounce straight back. If the mirror was curved so that the ball struck the surface at an angle, it would bounce away at an angle.

When you look into an ordinary flat mirror, the image of your face is right side up: Your hair is on top of your head and your chin is underneath. To reach your eyes, the light from your hair hits the mirror at a slight angle and then bounces into your eyes from above - which is why you see your hair on top and your image as right side up.

When you look into a cylindrical mirror with the axis of the mirror horizontal and with your face a foot or more away from the mirror, your image is upside down. That's because the light from your hair bounces off the curved mirror and comes to your eyes from below.

       
To make sense of the angle at which the light is entering your eyes, your eyes and brain must see the image of your face as upside down and a little bit in front of the mirror.

As everyone knows, a flat mirror reverses your right side and your left side. How does it do that? Suppose you are standing face to face with another person. If your right ear points toward the east, his or her left ear will point toward the east. Now, instead of facing another person, suppose you are facing a flat mirror with your right ear pointing to the east. The light from your right ear will bounce off the flat mirror and enter your eyes from the east. Even though your east ear is the east ear of the image, your right ear has become the left ear of the image! (Yes, this is a little mind-boggling at first reading. But once you get it, it will seem simple.)

Now look into the cylindrical mirror with its axis vertical. Stand at least a foot away from the mirror. Once again, place your right ear so that it points to the east. Light from your right ear bounces off the curved mirror and enters your eyes from the west. Light from your right ear appears to come from the right ear of the image. In this cylindrical mirror, you see yourself as others see you. You see the image of your face just a little bit in front of the mirror.

Here's a classic tricky question: "If a flat mirror reverses right and left, why doesn't it reverse up and down?"

The answer is that a flat mirror actually reverses in and out. That is, light that travels "in" to the mirror is bounced back "out" of the mirror. This reversal does not change up into down, but it does change right into left. Consider the outline of the hand below. Is it a right hand or a left hand? You cannot tell which hand it is unless you know whether the palm of the hand is facing "in" to the page or "out" of the page. So right and left depend on in and out.


This hand is either left or right, depending on which way the palm is facing.

Posted in: Science Snacks