Endless Light: A Look Into the Sphere of One Way Mirrors

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Light in a hollow sphere surrounded by a one-way mirror will not remain trapped indefinitely; it will diminish in intensity over time. A one-way mirror allows more light to pass through than a regular mirror, enabling visibility from a dark room while reflecting light in a lit room. Observers in the dark room see transmitted light, while those in the lighted room see reflected light. The presence of observable light indicates that photons are escaping the sphere, meaning the light is leaking out. Ultimately, the light will fade until it is no longer detectable.
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Would light in a hollow sphere with one way mirror around it continue to have the light trapped bouncing inside forever? one way mirror so in a dark room you can see the light inside. infinite lite light bulb..sorta.
 
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The gist of how one way mirrors work is that a piece of glass is coated with less silver than a regular mirror. This allows more light to be transmitted through the mirror. Light is still reflected, however, and, between a light and dark room, an observer in a lighted room will see an abundance of reflected light while an observer in the dark room will see an abundance of transmitted light. So, light will not bounce around forever. It will reduce in intensity until there is no observable light.

Another way to look at things is if you can see the light from the sphere, your observation is of photons hitting the photo-receptors in your eye. This means that the light had to leave the sphere and end up in your eye. So, if you can see it, then it must be leaking light (ideally speaking).
 
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thank you for the answering :D
 
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