Magnification is inversely proportional to the diameter of the field of view.
Yes, a calibrated ocular micrometer can be used to measure the diameter or length of a field or object. Essentially, that is all that it is used for.
i think that you do math?
The diameter of the center circle on a regular soccer field (100x60 yards) is 20 yards.
At low power on the compound microscope, the diameter of the field of view is 4 millimeters. This is reduced to 1.7 millimeters when you switch to medium power and further reduced to 0.4 millimeters when you switch to high power. Covert the measurment for the field of view from millimeters to microns, the conventional unit of measurment in microscopy. There are 1000 microns in one millimeter. Low power: 4mm= 4,000um Medium power: 1.7mm= 1,700um High power: 0.4mm= 400um
Field diameter of lens B equals field diameter of lens A times total magnification of lens A divided by total magnification of lens B
Magnification is inversely proportional to the diameter of the field of view.
ok
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.
A rectangular shape cannot have a diameter, which is a characteristic of a circle.
50 yards.
the diameter of the high power field microscope is 500 micrometers
Yes, a calibrated ocular micrometer can be used to measure the diameter or length of a field or object. Essentially, that is all that it is used for.
The diameter of a field is decreased by 1.5 millimeters when changed from low power to high power magnification.
Yes, a calibrated ocular micrometer can be used to measure the diameter or length of a field or object. Essentially, that is all that it is used for.
Radius is half the diameter, so 25 yards.
The answer is about 2.9mm at 80x.