The equation goes like this and works for both medium AND high feild diameter :
Medium(High) DIA. = Low Diameter / [Med(High)mag/low mag]
Brackets () are NOT for multiplication, they are for the other formula.
General formula used to calculate torque from power is torque=power*9.55/rpm so,using your data,50=500*9.55/N(rpm) i.e.,N(rpm)=95.5rpm. Angular Velocity=3.147*d*N/60 Unless the diameter is unknown its not possible to calculate the angular velocity.Once diameter is known it can substituted in the above mentioned formula.
When a microscope is parcentered, the specimens will appear centered in the field of view at every magnification. So if a field of a slide is centered at the lowest power, even though the field diameter shrinks at each higher magnification, the desired part of the specimen will remain in the center of the viewing field.
the naswe is 400
First you need to know what force is required. The pressure the cylinder is going to work at. From this you can wok out the area of the piston and then the diameter of the piston. Force = Pressure x Area
Power=work over time = watts(W)
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
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
The diameter of a field is decreased by 1.5 millimeters when changed from low power to high power magnification.
the diameter of the high power field microscope is 500 micrometers
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0.56 mm. because total field of view on medium power is 1.7 mm. divide this with 3 and you get 0.56.
Depending on how many cells there are in the field of view. On medium power, you may not be able to see any.
You use the 3 objective lenses of a compound microscope to switch powers. There's LOW, MEDIUM, and HIGH power. With LOW power, you can magnify what you're looking at. With HIGH power, you can see things that you can't see with a naked eye.
times by 2
It is focused on the largest area of vision by being the most "zoomed out", so you are looking at a much greater area than the high power field of view.
The equation Force = pressure x surface of the cylinder Electric power and torque and power you need to know what you want. After obtaining the surface area of ​​the circle diameter cylinder, the cylinder can get.
It varies based on the microscope but is usually 4.5mm at 40X (low power), 1.8mm at 100X (medium power), 0.45mm at 400X(high power), and 0.18mm at 1000X.