Any light that bounces off of the surface is the same color
as it was when it hit the surface.
Light reflects off a smooth surface like a mirror because the surface is flat and regular, allowing the light waves to bounce off in a predictable manner. When light hits the mirror, it bounces off at the same angle as it strikes the surface, creating a clear and sharp reflection.
reflection is when light its something like a mirror and refraction is light going through something solid that is not like a mirror when light falls on a surface and bounces back, it is reflection and when light is absorbed by the surface or passes through the surface but does not bounces back, it is refraction.
Reflection is where the light hits the surface and `bounces` back off the surface, while refraction is where the light enters the medium and changes direction according to the refractive index of the medium. The higher the refractive index, the more the light is refracted.
reflectionWhen a wave bounces off a surface, it is said to have been reflected and the wave is called a reflection.reflectionWhen a wave bounces off a surface, it is said to have been reflected and the wave is called a reflection.
Reflection: light bounces off of a surface, like a mirror.Refraction: light goes through a substance and bends. For example, white light through a prism comes out in a rainbow because the light is refracted or bent and each color has a different index of refraction.
When light bounces off a surface, it is not absorbed by the surface unless the material is specifically designed to absorb light, such as in solar panels. Instead, the light reflects off the surface, which allows us to see objects and colors.
The light that bounces off of a surface is called reflected light. When light hits a surface, some of it is absorbed, and the remaining light waves bounce off in different directions, creating reflection.
Regular reflection.
Specular reflection occurs when light bounces off of a smooth surface such as a mirror!
When light bounces off a surface, it undergoes reflection. The angle of incidence (angle at which light strikes the surface) is equal to the angle of reflection (angle at which light bounces off the surface). The Law of Reflection governs this interaction between light and surfaces.
When light bounces of a shiny surface, such as a mirror, this is called specular reflection.(Diffuse reflection is when light bounces of a rough surface, such as a wall. You can tell it's a rough surface because you can't see your reflection.)
Black would be no colours. the way we see things, is that light bounces off a surface, and into our eyes. The colour of the surface decides the colour of the light that is bounced into our eyes, and allows us to tell what colour it is. If there either isn't any light, or nothing that bounces in our direction, then we'll see the absence of light as black.
The change in direction that occurs when a light ray bounces off of a surface is called reflection. Reflection is determined by the angle of incidence (angle at which the light ray hits the surface) and the angle of reflection (angle at which the light ray bounces off the surface).
Light can be reflected because it bounces off a surface at an angle.
when light 'bounces off' a surface, the technical term is that light is reflecting. if you're looking for the unscientific, descriptive word, it is scatter
When light reflects off a surface, it follows the law of reflection stating that the angle of incidence is equal to the angle of reflection. This means that the angle at which the light strikes the surface is equal to the angle at which it bounces off.
When a beam of light bounces off a surface, it is called reflection. This process involves the light wave striking the surface and then being redirected back into the air.