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It could burn and melt the specimen
The two things are quite unrelated. You have have high-intensity light that is white, or any color you want.
It indicates that the light bulb must be high of voltage trough the current......
To travel far, you must have high intensity, which a normal torch light does not have to go through like, Marina Tench's depth. So! check the power of your torch light before diving at the great depth.Since the light goes on diverging (as you know from torch light) therefore the time that it reach the bed, the luminance of the light would get very low, so that is why the light can not travel deeper into the water. But intensity also matters here too. If you have very high intensity light source then you probably don't have to use any further more converging medium but if you use low intensity light source, no matter how much you try to converge it using a medium, it won't show as clear as the high intensity light did.
It stands for Light Amplification by Stimulated Emission of Radiation, and it means that light is strengthened to form a high-intensity ray of light.
It could burn and melt the specimen
a light microscope
The two things are quite unrelated. You have have high-intensity light that is white, or any color you want.
When using high intensity light you should use eye protection that is designed to reduce the light intensity sufficiently that your eyes will not be injured. Selecting the correct eye wear requires knowing how bright the light is and at what wavelengths the light is produced. Just picking up a pair of dark glasses may not provide the needed level of protection.
With high intensity light your pupil constricts. This happens to protect your retina from damage by light of high intensity.
Lifting light weight with high intensity can stunt growth in children if used too early.
When using a compound microscope the depth of field decreases when the lens is focused close (High power). The intensity of the illumination (light) that gets though is less when the scope is high powered.
The flashing white light that may occur at parties and/or clubs is called a "strobe light." A "strobe light" is a high-intensity flashing beam of light produced by charging a capacitor to a very high voltage then discharging it as a high-intensity flash of light in a tube
Temperature affects the rate. Because of it is using enzymes.
The relationship between light intensity and photosynthetic rate is that if the intensity of the light is high then the rate of photosynthesis will increase. However the rate of photosynthesis will only increase to an extent after intensity of light reaches a certain point photosynthesis rate will stay still.
The condensor of microscope is used to control the light intensity so it first depends on the viewer and secondly it should be so adjusted so that the light intesity does not shoots high as it can damage the specimen and is also harmfull to the eyes and even to the microscope. It is also to be see that the specimen view clearly against its background.
A Scanning Electron Microscope, or SEM, is a type of electron microscope. Its light source is from a beam of high voltage electrons.