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What happens to the diameter when you go from low to high power?
When you switch from low to high power on a microscope, the diameter of the field of view decreases because the high-power objective has a higher magnification, which zooms in on a smaller area. This allows for more detailed observation of the specimen at the expense of a smaller field of view.
Under high power magnification the field diameter is 400 calculate the size of the organism?
To calculate the size of the organism, you would need to know the magnification of the microscope being used. Comparing the field diameter at 400x magnification with the actual size of the organism would give you the scale factor to determine the organism's size. For example, if the field diameter at 400x is 0.5 mm, and the actual size is 50 micrometers, then the organism is 10 times smaller than the field diameter.
What change occurred in the intensity of the light in the field of view when you exchanged the low-power objective for the high-power objective?
It declined
Is the field of view brigther under low power or high power?
The field of view is often brighter under low power because of the wider exit pupil diameter. This allows more light to enter the eye, making the image appear brighter compared to high power, which typically has a smaller exit pupil and may result in a dimmer image.
Does the diameter of a telescope control its magnification?
No, you can change the magnification of the telescope by simply changing the eyepiece. The two most important powers of the telescope, light-gathering power and resolving power, depend on the diameter of the telescope, but it does not control the magnification.
What happens to the diameter when you go from low to high power?
When you switch from low to high power on a microscope, the diameter of the field of view decreases because the high-power objective has a higher magnification, which zooms in on a smaller area. This allows for more detailed observation of the specimen at the expense of a smaller field of view.
What is the diameter of the high power field of a microscope in micrometers?
the diameter of the high power field microscope is 500 micrometers
How big is the worm relative to the diameter of the field of view?
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
How do you calculate the field diameter of the medium power lens?
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.
What happens to Field of View when you change from low power to oil immersion high power?
When you change from low power to oil immersion high power on a microscope, the field of view decreases. This is because high power objectives have a narrower field of view due to higher magnification, leading to a more detailed but smaller area being visible through the lens.
What is the diameter when you have 1.2mmhigh power filed and an object that occupies one third of that field?
To find the diameter of the field of view at high power, you can use the height of the field. If the field is 1.2 mm high and the object occupies one third of that field, then the height of the object is 0.4 mm (1.2 mm / 3). The diameter of the field of view is equal to the height when viewed in a circular field, so it remains 1.2 mm.
What happens to power if piston diameter is changed?
If the size of the piston is increased, the power will increase. If it is decreased, the power will decrease.
When switching to a higher power lens what happens to the field of view?
The field of view becomes narrower.
What happens to the field of view when you change from low power magnification to high power magnification?
When you change from low power magnification to high power magnification, the field of view typically decreases. This is because high power magnification zooms in on a smaller area, allowing for more detail but at the expense of seeing less of the surrounding area.
How do you determine the diameter of the field of view?
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
If the size of the high-power field is 1.2 mm an object that occupies approximately a third of that field has an estimated diameter of?
area of object = (1/3) pi * radius^2 = (1/3) (pi) * (0.6)^2 = 0.377 Find the diameter of this object (assuming it's a circle), and that's the answer: diameter = radius * 2 radius = square root (area / pi) diameter = 2 * square root (area / pi) diameter = 2 * (0.335) = 0.67
Under high power magnification the field diameter is 400 calculate the size of the organism?
To calculate the size of the organism, you would need to know the magnification of the microscope being used. Comparing the field diameter at 400x magnification with the actual size of the organism would give you the scale factor to determine the organism's size. For example, if the field diameter at 400x is 0.5 mm, and the actual size is 50 micrometers, then the organism is 10 times smaller than the field diameter.
