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How is it that an entire room can be illuminated by one small light source, yet when that source is stopped, every trace of light is gone? Is it just instantly absorbed by the surrounding surfaces? I would think there might be a brief moment where the residual light is reflected back and forth between the walls or something. Would the effect be the same in a room with a completely reflective floor, ceiling, and walls? Or would the light energy bounce continuously off the walls, keeping the room illuminated even in the absence of continuous source of light? I'm sure there is a simple explanation, but please, enlighten me.
And got the following answer:
Imagine you have a filament (light source) exactly at the center of 100 % reflective ball shaped wall vacuum room. When you turn on the filament, what will happened ? All the light emitted by the filament are bounced back exactly to the filament. The filament will glow brighter and brighter until you turn off the filament or the filament melt, and the filament will still glow even though no electricity supplied to it anymore. (The filament glows brighter and brighter because it receive the reflected ray of light and converted back to heat at the filament while energy is still being fed to it until you turn off.) Why?, because no energy is left the room and no energy is absorbed by the wall. This won't happened in real world, because there is no such thing like 100 % reflective or 100% vacuum.