When light falls on a polished surface, it gets reflected off the surface at an equal and opposite angle to the angle at which it hit the surface. This reflection creates a mirror image of the original light source.
When light falls on a highly polished surface, it is reflected in a way that retains most of its original intensity and direction. The surface behaves like a mirror, causing the light to bounce off in a predictable manner. This can result in a clear and well-defined image being produced.
When a ray of light falls on a surface, it can be absorbed, reflected, or transmitted through the surface. The type of interaction that occurs depends on the properties of the surface, such as its material and texture.
A black surface tends to absorb more heat than a polished surface. The dark color of a black surface allows it to absorb a wider range of wavelengths of light, converting more of the light into heat. A polished surface reflects more light, which results in less absorption of heat.
A high polished surface reflects mostly specular reflection, which is when light rays hit the surface at the same angle they are reflected. This creates a clear and mirror-like reflection.
When light falls on a black surface, it gets absorbed rather than reflected or transmitted. This absorption occurs because the black surface does not reflect any of the light that hits it, converting the light energy into heat energy instead. This is why black surfaces appear dark, as they do not appear to reflect any light back to the observer.
When light falls on a highly polished surface, it is reflected in a way that retains most of its original intensity and direction. The surface behaves like a mirror, causing the light to bounce off in a predictable manner. This can result in a clear and well-defined image being produced.
Reflection is bouncing back of light after falling on a polished surface while refraction is bending of light when it falls on a surface
When a ray of light falls on a surface, it can be absorbed, reflected, or transmitted through the surface. The type of interaction that occurs depends on the properties of the surface, such as its material and texture.
A black surface tends to absorb more heat than a polished surface. The dark color of a black surface allows it to absorb a wider range of wavelengths of light, converting more of the light into heat. A polished surface reflects more light, which results in less absorption of heat.
You get both regular reflection and scattered reflection when a straight ray of light hits polished wood.
A high polished surface reflects mostly specular reflection, which is when light rays hit the surface at the same angle they are reflected. This creates a clear and mirror-like reflection.
The portion of a light ray that falls on a surface is incident ray.
A polished silvery surface usually has a reflective and glossy nature, reflecting light and creating a shiny appearance.
When light falls on a black surface, it gets absorbed rather than reflected or transmitted. This absorption occurs because the black surface does not reflect any of the light that hits it, converting the light energy into heat energy instead. This is why black surfaces appear dark, as they do not appear to reflect any light back to the observer.
The portion of a light ray that falls on a surface is incident ray.
When a beam of light falls on a surface, it is called reflection if it bounces off the surface, or refraction if it passes through the surface and changes direction.
When light hits a polished surface, it is reflected at the same angle it hits the surface, following the law of reflection. The smoothness of the surface allows for more regular and specular reflection, resulting in a clear image or mirror-like effect.