When a light wave encounters another object, it can either be absorbed by the object, transmitted through it, or reflected off its surface. The reflection of light waves off an object is what causes them to bounce. The angle at which the light wave bounces off the object is determined by the law of reflection, where the angle of incidence is equal to the angle of reflection.
When a light wave encounters an object, it diffracts around it due to its wave nature. This diffraction phenomenon causes the light wave to bend around the edges of the object, leading to patterns of light and shadow. The amount of bending depends on the size of the object and the wavelength of the light.
When a wave strikes an object, it can bounce off or reflect off the surface of the object. The angle of reflection is equal to the angle of incidence, as described by the law of reflection.
When waves bounce back off of another surface, it is called reflection.
Reflection of a wave occurs when the wave encounters a boundary or interface that does not allow it to pass through, causing the wave to bounce back in the opposite direction. This can happen when a wave encounters a denser medium, a fixed end, or a free end where the wave is fixed.
When a light wave bends around an object, it undergoes a phenomenon called diffraction. This bending is more pronounced when the wavelength of light is comparable to the size of the object. Diffraction causes the light to spread out and create a pattern of interference, leading to phenomena such as light and dark fringes.
Three situations may arise when a light wave travelling from an optical medium to another optical medium strikes the second medium. They are as follows: 1. The light ray may bounce off of the medium to which it was travelling with a change in angle.This phenomenon is also known as reflection of light. 2. The light ray may pass through the second medium with a deviation in its angle of incidence. This is also known as refraction of light. 3. The ray may be absorbed by the second medium. If a light wave does not bounce off of an object then either 1. or 2. may happen. That light ray enter the second medium, or it may be absorbed by that medium.
It cause a reflection(:
When a light wave encounters an object, it diffracts around it due to its wave nature. This diffraction phenomenon causes the light wave to bend around the edges of the object, leading to patterns of light and shadow. The amount of bending depends on the size of the object and the wavelength of the light.
When a wave strikes an object, it can bounce off or reflect off the surface of the object. The angle of reflection is equal to the angle of incidence, as described by the law of reflection.
The light wave could be absorbed by the object, in which case its energy is converted to heat. The light wave could be reflected by the object. And the light wave could be transmitted by the object. ...
Light rays may be thought of as ripples or waves. If you have ever seen the waves in a pond bounce off an object in the pond or the shore line, that is a suitable analogy for the reflection of light rays. Some waves are big and some are small, some waves are closer together and some are further apart. When a wave approaches and impinges on a surface, we refer to that as the "incident wave" (or incident radiation). The properties of the wave (how close, how big) and the properties of the reflecting surface, will dictate how efficiently the wave can bounce off the surface.
When waves bounce back off of another surface, it is called reflection.
Reflection of a wave occurs when the wave encounters a boundary or interface that does not allow it to pass through, causing the wave to bounce back in the opposite direction. This can happen when a wave encounters a denser medium, a fixed end, or a free end where the wave is fixed.
diffraction is the answer
diffraction is the answer
Reflects all light beams which have the wave length of the color of that object. Each color has a particular wave length in the electromagnetic spectrum.
A light wave can be absorbed by the object, reflected off the object, or transmitted through the object depending on the material properties and the angle of incidence.