relaxed
When light is reflected, it bounces off a surface and changes direction. The angle of incidence (incoming light) is equal to the angle of reflection (outgoing light), following the law of reflection. The reflectivity of the surface determines how much light is reflected.
no
No. Stars emit light.
When light is reflected from a surface, it bounces off the surface in a predictable manner called the law of reflection. The angle of incidence (incoming light) is equal to the angle of reflection (reflected light). This process allows us to see objects by the light they reflect into our eyes.
Light can be reflected from a smooth surface through specular reflection, where the light rays are reflected at the same angle as they strike the surface. Light can also be reflected from a rough or irregular surface through diffuse reflection, where the light is scattered in various directions upon hitting the surface.
When light is reflected, it bounces off a surface and changes direction. The angle of incidence (incoming light) is equal to the angle of reflection (outgoing light), following the law of reflection. The reflectivity of the surface determines how much light is reflected.
When light strikes matter, it may be transmitted or absorbed. In addition,it may be reflected, refracted, scattered, and/or diffracted,
Light can be absorbed, transmitted, reflected, or refracted when it interacts with matter. The specific behavior depends on the properties of the material and the wavelength of light.
When light strikes a transparent object, it can be transmitted through the object, reflected off its surface, or refracted (bent) as it passes through. The behavior of light will depend on the angle at which it strikes the object and the material properties of the object.
Light can behave as a wave or a particle, depending on the experiment. It can be reflected, refracted, absorbed, or transmitted when interacting with different materials. Light can also undergo interference, diffraction, polarization, and scattering.
if we assume that you mean in that order the light would be gone once it was absorbed. (what was left of it once it was scattered anyway)
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 waves can be absorbed by the object, reflected off the object's surface, transmitted through the object, or refracted as they pass through the object.
Yes, a rainbow is formed when sunlight is refracted, reflected, and dispersed in water droplets in the atmosphere. This process creates a spectrum of colors similar to how light waves behave.
The light which enters is called the incident ray and the reflected light is called the reflected ray.
If you are referring to visible light, which lies in the wavelength range from 380 to 740 nm of the electromagnetic radiation spectrum, an opaque body won't allow light to travel trough it. When light hits the surface of the body the light can be, reflected, absorbed, or part of it reflected and the rest absorbed. In the case you are referring to thermal radiation which lies in the wavelength range from about 1 x 102 to 1 x 105 nm, an opaque body to thermal radiation will behave the same. In this later case the way the body's surface will behave is given by the surface properties reflectivity and absorptivity, which are the fraction of the incident radiation that is reflected and absorbed by the surface respectively.
- light reflected from a window- light reflected from a mirror- light reflected from snow