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.
Beryllium is a metal that has a high reflectivity for visible light. When light strikes the surface of beryllium, it reflects off the metal's smooth surface, giving it a shiny appearance. This high reflectivity makes beryllium useful in applications where a highly reflective surface is desired, such as in optical systems or mirrors.
The Plant Cell Shrinks
When light strikes clear glass, most of it is transmitted through the material, allowing you to see through the glass. Some light is also reflected off the surface of the glass. The amount of light that is transmitted versus reflected depends on the angle of incidence and the refractive index of the glass.
It is either transmitted or reflected. Often, different portions of the light do both.
When light strikes a smooth reflective surface, it follows the law of reflection, which states that the angle of incidence is equal to the angle of reflection. This means that the light bounces off the surface in a predictable way, producing a clear reflection.
When light strikes a rough surface it reflects in essentially random directions.
When light strikes a smooth surface, it reflects uniformly in a single direction, resulting in a clear reflection. In contrast, when light strikes a rough surface, it scatters in multiple directions, resulting in diffuse reflection. This causes the light to be dispersed rather than producing a distinct reflection.
When light strikes rough objects, it gets scattered in multiple directions due to the uneven surface. This causes the reflected light to be diffused rather than reflecting in a singular direction like with a smooth surface. As a result, the rough object appears matte or non-shiny compared to a smooth object.
When light strikes smooth and shiny colored glass, the light may be reflected, refracted, or absorbed. The smooth surface allows for specular reflection, where the light bounces off the surface at an angle equal to the angle of incidence. The color of the glass will determine which wavelengths of light are absorbed and which are reflected, giving the glass its specific color appearance.
When light strikes a smooth surface, it undergoes regular reflection, also known as specular reflection. This means that the angle at which the light hits the surface is equal to the angle at which it is reflected, resulting in a clear and well-defined reflection.
.Most of it is absorbed.none is reflected
When light strikes a smooth surface, it undergoes reflection. The angle of incidence is equal to the angle of reflection, and the reflected light creates a clear image of the light source. This phenomenon is known as specular reflection.
Light is an electromagnetic wave and as with all waves when they hit a smooth reflective surface such as a mirror they reflect which means they bounce off at 90 degrees. Light = incident ray Light reflected = reflective ray
When light strikes a shiny surface, it reflects off the surface. This reflection allows us to see the surface as it bounces back towards our eyes, creating a mirror-like effect.
it reflicts back up
When light strikes surfaces that are not smooth, it gets scattered in all directions. This is known as diffuse reflection, where light rays reflect off in various angles due to the uneven surface. As a result, the surface appears matte or rough instead of shiny or reflective.