the working distance decreases as the magnification increases
1000x
The relationship between the planet's SPEED and its distance from the Sun is given by Kepler's Third Law.From there, it is fairly easy to derive a relationship between the period of revolution, and the distance.
The size of the cell remains the same no matter what power objective is used. However, the magnification changes between these two objective lenses, with the low power objective magnifying it less than the high power objective.
the planets
As the distance from the sun increases, the period of revolution increases. Therefore this is a direct relationship. hope this helps :)
As the magnification of the objective increases, the FOV decreases
1000x
a large penis with eyes and ears that eats broccoli for fun... in funkytown.
As you increase the magnification, the field of view decreases.
As you increase the magnification, the field of view decreases.
Magnification is inversely proportional to the diameter of the field of view.
as the magnification increases, your field of view decreases. so when your magnification decreases, your field of view increases. such as, for example, a brick wall. when your 2 blocks away from one, all you see is the brownish wall. that is the low power objective. then when you get right up to the wall, you see all the tiny details. that is the high power objective. just think about it like that. =D. i hope it helped
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.
the distance between the specimen and the objective lens
um Long-distance relationship?
scale
size ratio is basiclly magnification.... just on a higher level. trust me im a scientist i know alot about this stuff :)