The higher the magnification the lower the depth of field.
As magnification increases, the field of diameter is reduced.
they are inversely related
The visibility of the specimen decreases as the power of magnification increases on a microscope. The specimen area will shrink as the magnification is increased.
100x the higher the magnification the shorter the working distance
The depth of field is the part of a specimen that is in sharp focus; the depth of field decreases as the NA increases. The depth of focus on the other hand is the magnified image in focus on the film plane; depth of focus decreases as magnification increases. To learn more about microscopes and its uses visit the website in the link below.
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.
Field diameter of lens B equals field diameter of lens A times total magnification of lens A divided by total magnification of lens B
As the magnification increases, the depth of field decreases.
Magnification is related because as magnification increases, the depth of field decreases.
The field of view becomes smaller when magnification increases.
The depth of field decreases.
The visibility of the specimen decreases as the power of magnification increases on a microscope. The specimen area will shrink as the magnification is increased.
The field of vision shrinks as the magnification gets higher so as the magnification increases the less of the diameter of the microscopic field you can see.
It becomes smaller as the detail becomes better.
field-of-review
100x the higher the magnification the shorter the working distance
As the magnification of the objective increases, the FOV decreases
The depth of field is the part of a specimen that is in sharp focus; the depth of field decreases as the NA increases. The depth of focus on the other hand is the magnified image in focus on the film plane; depth of focus decreases as magnification increases. To learn more about microscopes and its uses visit the website in the link below.
Yes, all other things being equal. The longer the focal length the shallower the depth of field. It also depends on the distance from the lens to the subject and the aperture used to create the photo. For a given lens, the depth of field increases as the subject distance increases. For a given distance, depth of field increases as the aperture gets smaller (e.g. F4 less, F8 more depth).