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The amount of bending certainly CHANGES depending on the frequency, but there is no simple relationship between frequency (or wavelength) on the one hand, and the index of refraction (and therefore the amount of bending) on the other. If by "infer" you mean to calculate this depending on the properties of the material, I don't think there is an obvious way to do this.
what part of the microscope is tobe adjusted so that the greatest amount of light will pass through the stage
The amount light bends when travelling through a medium depends on the medium's refractivity or refractive index.
It's called refraction, and the amount of bending is determined by the index of refraction.
bending force is the amount of energy it takes to compromise the item from its natural shape or conditionA bending force is a combination of tension and compression.
The amount of bending certainly CHANGES depending on the frequency, but there is no simple relationship between frequency (or wavelength) on the one hand, and the index of refraction (and therefore the amount of bending) on the other. If by "infer" you mean to calculate this depending on the properties of the material, I don't think there is an obvious way to do this.
what part of the microscope is tobe adjusted so that the greatest amount of light will pass through the stage
The question completely dissolves into nothingness when we recall that the frequency and wavelength of a wave are inextricably bound to each other. They don't change independently, and if you know one, then you know the other. So the "amount of bending" compared to frequency, and the "amount of bending" compared to wavelength, are necessarily identical.
The amount light bends when travelling through a medium depends on the medium's refractivity or refractive index.
It's called refraction, and the amount of bending is determined by the index of refraction.
The distortion of light through a camera lens, seen to greatest effect in the parts of the image with the greatest amount of contrast.
bending force is the amount of energy it takes to compromise the item from its natural shape or conditionA bending force is a combination of tension and compression.
an infinite amount
yes, we can get the greatest amount of energy at the producer level.
Spring back is the amount (could be measured both linearly or angulary )that the material has returned back to its original position after the bending process.
Bar bending schedule is a chart which describe the shape of bars, length of bars and total amount of steel is to be used in the specific design.
The amount of bending, or angle of refraction, of the light wave depends on how much the material slows down the light. Diamonds would not be so glittery if they did not slow down incoming light much more thanThe amount of bending