It reflects
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 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 infrared light hits a shiny surface, such as a mirror or metal object, the surface reflects much of the light because of its high reflectivity. This reflection can result in a decrease in the temperature of the shiny surface since less energy is absorbed.
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.
Clear plastic allows light to pass through with minimal interference. Aluminum foil reflects light due to its shiny surface. Tissue paper scatters and absorbs light because of its fibrous and translucent nature.
solar light
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.
.Most of it is absorbed.none is reflected
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 infrared light hits a shiny surface, such as a mirror or metal object, the surface reflects much of the light because of its high reflectivity. This reflection can result in a decrease in the temperature of the shiny surface since less energy is absorbed.
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.
spectral
Clear plastic allows light to pass through with minimal interference. Aluminum foil reflects light due to its shiny surface. Tissue paper scatters and absorbs light because of its fibrous and translucent nature.
When light strikes an opaque material, the photons are absorbed by the material, causing its atoms or molecules to vibrate or heat up. The material then reflects or absorbs the light energy, depending on its properties. If the material absorbs more light energy than it emits, it will heat up. If it reflects more light, it will appear as a non-shiny surface.
A shiny surface reflects 'more' light than a matt surface.
It reflects the light, that is how the surface seems shiny.When light hits a shiny surface it is reflected and is sometimes bent.
Yes, light energy can be reflected when it strikes a surface that is smooth and shiny, such as a mirror. The angle of reflection is equal to the angle of incidence, according to the law of reflection.