what is principle work of filter when white light incident on it and laser incident too
A laser rangefinder uses a laser to determine the distance to an object. The principle used is the time of flight principle based on the speed of light.
a laser light with a holograph is a laser light with holograph.
First, let's understand why you call that device a 'cyan filter'? Was it invented by the famous Austrian Physicist Professor Cyril Cyan? Is it marketed and distributed in the US by the Cyan Filterwerks? Or is it because when you look at it, it looks the color of cyan? Could that be because whatever color of light enters one side of the filter, the only color of light that's not absorbed by the filter and remains to come out the other side is cyan light? In that case, whenever cyan light is present in the incident light ... like if it's 'white' light ... then the cyan comes out the other side and the filter looks cyan. And if there's no cyan in the incident light, then all of it is absorbed in the dyes in the filter, and the other side of the filter appears very dark, or black.
laser light rays don't spread and torch light ray's do
Light from a red laser!
what is principle work of filter when white light incident on it and laser incident too
A laser rangefinder uses a laser to determine the distance to an object. The principle used is the time of flight principle based on the speed of light.
A laser rangefinder uses a laser to determine the distance to an object. The principle used is the time of flight principle based on the speed of light.
a laser light with a holograph is a laser light with holograph.
No. Laser light is coherent. Light bulb light is not.
First, let's understand why you call that device a 'cyan filter'? Was it invented by the famous Austrian Physicist Professor Cyril Cyan? Is it marketed and distributed in the US by the Cyan Filterwerks? Or is it because when you look at it, it looks the color of cyan? Could that be because whatever color of light enters one side of the filter, the only color of light that's not absorbed by the filter and remains to come out the other side is cyan light? In that case, whenever cyan light is present in the incident light ... like if it's 'white' light ... then the cyan comes out the other side and the filter looks cyan. And if there's no cyan in the incident light, then all of it is absorbed in the dyes in the filter, and the other side of the filter appears very dark, or black.
No. Laser light is artificial light, but it is not sunlight.
Light amplification by stimulated emission of radiation(LASER or laser)
laser light rays don't spread and torch light ray's do
Unpolarized light has electromagnetic waves vibrating in all directions perpendicular to the direction of propagation. A polarizing filter only transmits light that is polarized along the same axis as the filter's axis. (Note that a polarizing filter also partially allows some orientations through that have some component of its axis along the same axis as the filter). The transmitted light thus constitutes half of the incident unpolarized light.Think of it like this: unpolarized light is like a rope vibrating up and down and a rope vibrating side to side. A polarizing filter is like "slots." If the slots are up and down, only up and down vibrations can get through. The other half- the side to side vibrations- are blocked.
Light from a red laser!
Laser rays are many light rays focused into a single light ray. That ray is a laser ray. The more lights rays focused into a single ray, the more powerful the laser ray.