The light is scattered. Some of the light may be absorbed, depending on the surface.
When parallel rays of light hit a rough or bumpy surface, they get scattered in different directions due to reflection. This phenomenon is known as diffuse reflection. The surface roughness causes the light to reflect unevenly, leading to the diffusion of light in various directions.
When light waves hit a rough surface, they create diffuse reflection, where the light is reflected in many different directions rather than a single coherent angle. This is why rough surfaces appear matte or dull compared to smooth surfaces which exhibit specular reflection.
diffuse reflection
It is called diffuse reflection when light rays hit a rough surface and bounce back at different angles. This creates a scattered reflection rather than a clear, single reflection.
When parallel rays of light hit a rough surface, the light scatters in different directions due to the uneven surface. This phenomenon is called diffuse reflection. It results in the light being reflected in various angles rather than a single angle as with smooth surfaces.
When parallel rays of light hit a rough or bumpy surface, they get scattered in different directions due to reflection. This phenomenon is known as diffuse reflection. The surface roughness causes the light to reflect unevenly, leading to the diffusion of light in various directions.
diffuse reflection
When light waves hit a rough surface, they create diffuse reflection, where the light is reflected in many different directions rather than a single coherent angle. This is why rough surfaces appear matte or dull compared to smooth surfaces which exhibit specular reflection.
diffuse reflection
It is called diffuse reflection when light rays hit a rough surface and bounce back at different angles. This creates a scattered reflection rather than a clear, single reflection.
When parallel rays of light hit a rough surface, the light scatters in different directions due to the uneven surface. This phenomenon is called diffuse reflection. It results in the light being reflected in various angles rather than a single angle as with smooth surfaces.
When light rays hit rough opaque objects, such as a rough surface, they undergo diffuse reflection. This means that instead of reflecting off the surface at a single angle like with smooth surfaces, the light rays are scattered in various directions due to the uneven nature of the surface. As a result, the surface appears matte or non-reflective.
If the surface is completely reflective then the angle at which the incident light leaves the surface will be different. For a rough surface the light would be scattered, whereas for a smooth surface they would reflect at the same angle the hit. If the surface isn't completely reflective then the angle and speed and which the light enters the object. For a rough surface the angles will random and based on the refractive index of the material. For a smooth surface they will be proportional to the sin of the angle times the refractive index.
The two types of reflection of light are regular reflection, where light rays reflect off a smooth surface at the same angle they hit it, and diffuse reflection, where light rays reflect off a rough or uneven surface in different directions.
They get absorbed in the rough surface. If its a smooth surface the light rays bounce into our eyes and then we see our reflection. Also light can refract. It means light passing through something making it bend. Like example if you stick a pencil through a glass of water the pencil looks like the bottom part shifted a little. That is a example of refraction.
When parallel rays hit a rough or bumpy surface, the rays reflect in different directions due to the uneven nature of the surface. This causes diffuse reflection, where light is scattered in various directions rather than reflecting in a single direction like with smooth surfaces. This is why we see rough surfaces like sand or paper as not reflecting a clear image.
Surfaces reflect light because light waves hit the surface and are absorbed and then re-emitted. When light waves encounter a smooth surface, they reflect in a regular way, creating a clear reflection. Rough surfaces scatter light in different directions, creating a diffused reflection.