When light bounces off a mirror, it undergoes the process of reflection. This means that the light wave changes direction upon striking and rebounding from the mirror's surface.
reflection of that object, determining its color, texture, and appearance. The angle at which the light bounces off the object is determined by the surface properties of the object and the angle of the incident light. This process allows us to see and perceive the objects around us.
Actually, when light bounces straight off a surface, we say that it is reflected, not refracted. Refraction occurs when light passes through a medium and changes speed, causing it to bend.
It is reflected. Depending on the shape of the mirror, this can be at a variety of angles. Assuming the question refers to a flat mirror that is hung on a wall; a plane (flat) mirror has an imaginary straight line at a right-angle to it, called the normal. A ray of light hits the mirror at an angle to the normal, but is reflected at the same angle that it hits the mirror in the opposite direction. So if a ray hits the mirror at 45 degrees from the normal, it will be reflected at 45 degrees from the normal in the opposite direction.
The queen usually asks the mirror "Mirror, mirror on the wall, who is the fairest of them all?" to gauge her beauty and status compared to others.
The virtual image that seems to be behind the mirror is of the same size of the object from where the rays come from. The distance between the object and the mirror is the same distance between the mirror and the virtual image. The most notable difference is that the virtual image is reversed Mirrors have a very smooth surface with very few irregularities - unlike the surface of say paper - which may feel smooth to the touch but in fact is a very irregular surface if seen under a microscope. Light hitting an irregular surface is scattered in all directions so no image can be formed. Light hitting a mirror is reflected in the same order that it strikes the mirror - so an ordered reflection of the object is seen as a clear image. We see objects in a mirror, because a mirror, when hit by particles of light called photons, reflects the photons back to us and some reach, and enter, our eyes. Photons that hit a rough surface will bounce off of the surface in a haphazard manner, while those that hit a smooth surface, such as a mirror, only bounce off of the surface at the same angle at which they hit the object. The scientific term for this phenomenon is reflection. Not all smooth surfaces reflect photons back to us, even though, technically, they should bounce back at the same angle at which they hit the surface. This exception to the rule results, because some smooth surfaces absorb the light particles hitting them, making it impossible for them to bounce back. Another apparent exception to this rule is that, although our bodies are rough, uneven surfaces, off of which light bounces at random angles, our images reflect off of a mirror. The reason for this apparent contradiction is simply that when we stand in front of a mirror, some, but not all, of the light particles bouncing off of us will hit the smooth surface of the mirror. The ones that do reflect our images back to our eyes at exactly the same angle at which they hit the mirror. In other words, photons that bounce off of any part of our bodies and hit the mirror reflect back to our eyes from only one place on the mirror, and at only one angle. It follows that each point on our bodies that reflects back to our eyes from one point on the mirror produces an image in the mirror. All of the images together make up our reflections, like it or not. And remember that mirrors don't lie!
Light is coming from the light bulb and bouncing off of you. Some of the light that bounces off of you, bounces off the mirror and back into your eyes. The light bounces off the mirror is such a way that your eyes think that the light is coming from a person that is on the opposite side of the mirror. That is to say your eyes and your brain think that the light is coming directly from an object instead of bouncing off a mirror. At the risk of getting technical, the reason is that the angle of reflection equals the angle of incidence. Go to the Related Links below this window if you want to know more.
reflection of that object, determining its color, texture, and appearance. The angle at which the light bounces off the object is determined by the surface properties of the object and the angle of the incident light. This process allows us to see and perceive the objects around us.
Actually, when light bounces straight off a surface, we say that it is reflected, not refracted. Refraction occurs when light passes through a medium and changes speed, causing it to bend.
I would have to say the prism
so that light bounces off one to the other lets say you want to look up to see what is in front of you. If you look up at a angle that is completely vertical, that degree measurement would be 90*. the horizontal plane would be 0*. the angle in-between the two is 45*. so if you look up, at 90* at a mirror that is placed at 45* then you will see what ever is in the mirror at 0* in front of the mirror. If the mirror was at lets say 75* you would look up at the sky, if the angle was at 30* you would look at the water.
No. It's caused by the material in the mirror reflecting the light that hits the mirror back at you. So you might say a reflection is made of light. Actually this answer depends on defining matter. By Einstein's modern definition of matter, which includes photons (due to its type of energy) It is matter. SO IT IS MATTER.
mirror = Spiegel
Mirror, mirror on the wall = Spieglein, Spieglein an der Wand
Mirror is pronounced as /ˈmɪr·ər/ in English.
Light usually passes through a transparent object. Similarly, light passes through the translucent objects but people cannot see through it.
Well, you're fat, but look on the bright side: they say it is harder to kidnap fat people. "Why are you looking at your mirror again?" That is a matter of opinion, That you are inexcusably rude is a matter of fact.
If an object doesn't reflect light, it will appear perfectly black. So yes, in a sense, a rock does reflect light, since this is what enables you to see it. It is, however, a poor reflector, compared with, say, water, or a mirror. If an object doesn't reflect light, it will appear perfectly black. So yes, in a sense, a rock does reflect light, since this is what enables you to see it. It is, however, a poor reflector, compared with, say, water, or a mirror.