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it becomes bigger
As the magnification increases, the depth of field decreases.
By increasing the intensity the soundwave will become louder.
The intensity reduces in proportion to the square of your distance from the source.
It corrupts the lens
it becomes bigger
The field of view becomes smaller when magnification increases.
Increasing the magnification on a light microscope will decreased the diameter of the field of view. You are essentially looking closer and closer at the objects. For example: Using your hand (thumb to fingertips), create a circle as if holding a telescope. Hold your hand-telescope up to one eye and look through it at your screen. Now, move closer to the computer screen... The size of the field you are able to see gets smaller...that's what happens with a microscope lens. As you increase the magnification, the lens gets closer to the specimen.
Magnification focuses light into a smaller area making it appear more intense.
The magnification of the object will increase.
Going to high power on a microscope decreases the area of the field of view. The field of view is inversely proportional to the magnification of the objective lens. ... The specimen appears larger with a higher magnification because a smaller area of the object is spread out to cover the field of view of your eye
As magnification increases, the depth of focus decreases.
As the magnification increases, the depth of field decreases.
Adjusting a microscope's magnification settings can alter an object's field of view from a macro to micro areas. Higher magnification make the field of smaller and better defined, where lower settings increases the visible area.
WHILE TAKING A PA VIEW OF CHEST DISTANCE BETWEEN XRAY TUBE AND FILM IS ABOUT 6 FT SO AS TO DECREASE THE MAGNIFICATION AND INCREASE THE SHARPNESS OF IMAGE WHEREAS AN AP VIEW WHICH IS TAKEN AT LESSER DISTANCE THERE IS INCREASED MAGNIFICATION AND DECREASED SHARPNESS. THEREFORE WHEN the X-ray tube is to close to the chest for an X-ray IT CAUSES 1 INCREASED MAGNIFICATION 2 DECREASED SHARPNESS
Total magnification is calculated by objective times ocular lens. So if you increase the objective lens is directly related to an increase in magnification.
It decreases. This is because the same amount of energy is distributed over a larger area (wavelength increases, so fringe spacing also increases). Energy per unit area decreases and this is why intensity decreases.