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As you increase the magnification, you decrease the working distance.
decreases
Higher magnification decreases working distance. Magnification and WD have inverse relation. One goes up the othe goes down. For example a 40X finite conjugate objective lens has WD of only 0.5mm while a 10X has WD of 6.30mm.
the distance between the specimen and the objective lens
If everything is working as it should, the image distance in the eye never changes. The image always needs to focus on the retina, which doesn't move. This is where the lens comes in, specifically its ability to change its focal length. When the object distance changes, the focal length has to change, in order to keep the image distance constant. Muscles around the lens change the shape of the lens, in order to change its focal length.
the working distance decreases as the magnification increases
Working distance is the distance between the front edge of the object lens and the specimen surface. Working distance decreases as the magnification and numerical aperture both increases.
As you increase the magnification, you decrease the working distance.
decreases
4x
decreases
Higher magnification decreases working distance. Magnification and WD have inverse relation. One goes up the othe goes down. For example a 40X finite conjugate objective lens has WD of only 0.5mm while a 10X has WD of 6.30mm.
100x the higher the magnification the shorter the working distance
The room air temperature increases.
it is how you operate the microscope just adjust he course adjustment knob for focusing the fine adjustment knob
it increases (goes faster) because its working harder to build up ur heart
Your braking distance will be longer, and it'll be harder to control the car on a slippery surface.