RAMAN EFFECT
The Nobel Prize in Physics in 1930 was awarded to Sir Chandrasekhara Venkata Raman for his work on the scattering of light and the discovery of the Raman effect, which demonstrated the change in frequency of light when passing through a transparent material.
The number of wavelengths passing through a given point per second is determined by the frequency of the wave passing through that point. It is calculated using the formula: number of wavelengths = frequency of the wave.
No, a transparent crystal does not have a polarizing angle. The concept of a polarizing angle applies to polarized light passing through a medium, not the medium itself. The polarizing angle is the angle at which light is completely plane-polarized when passing through a medium.
yes for more information go on google.com ......................................................................................................................... No, because transparent materials do not absorb light.
A substance that allows light to pass through it is called transparent. This means that it doesn't obstruct or absorb the light rays passing through it, allowing them to pass through with minimal reflection or refraction. Examples of transparent substances include glass, water, and air.
Light passing through a transparent medium like glass/water does. Smoke is made of small particles of unburnt carbon, and light passing through is does not get split into a rainbow.
The frequency of the waves passing through the reference point increases when more waves pass through in a period of time. Frequency is the number of waves passing through a point in one second and is directly proportional to the number of waves passing through that point in a given time period.
transparent and distorting the light passing through it, such as frosted glass or a shower curtain.
Transparent tape was originally made from celluloid. All of the windows were transparent except the one in the bathroom. His motives for passing the law were transparent to his colleagues.
A transparent substance allows light to pass through it freely, resulting in visibility through the material. In contrast, an opaque substance blocks light from passing through, making it impossible to see through the material.
The movement of particles in a medium, such as air or water, affects the frequency and amplitude of a wave passing through that medium. As particles move more vigorously, the amplitude of the wave increases. Similarly, as particles move faster (higher frequency), the frequency of the wave passing through the medium increases.
A medium in physics is the substance or material that wave energy travels through, such as air, water, or a solid. It can affect the speed and direction of waves passing through it.