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.
In reference to microscopy, the field of view (or FOV) describes the area you can see through the microscope, especially light microscopes. Under low power, it is about 1800 micro metres and at high power, it is around 450 micro meters (but this depends A LOT on the microscope you are using).
The light intensity increases when you switch from low to high power, as more energy is being used to produce a brighter light.
Organisms appear to move more rapidly under high power due to the increased magnification of the microscope, making their movements more noticeable compared to when seen under low power.
No, switching from low power to high power magnifies the image but does not change its position. The position of the image remains the same as long as the slide or specimen is not moved.
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.
In reference to microscopy, the field of view (or FOV) describes the area you can see through the microscope, especially light microscopes. Under low power, it is about 1800 micro metres and at high power, it is around 450 micro meters (but this depends A LOT on the microscope you are using).
The illumination is typically brighter when using high power compared to low power on a microscope. This higher brightness helps to provide better clarity and resolution when viewing specimens at higher magnifications.
The light intensity increases when you switch from low to high power, as more energy is being used to produce a brighter light.
how many cells you can see under low power
You can see less under high power because it focuses on a smaller part of the specimen, but in more detail than low power.
Under low power in a microscope, you will see a larger area of the slide but with less detail. This is because the lenses are not magnifying the image as much as under higher magnification. Low power is useful for locating objects on the slide and getting an overall view of the specimen.
Pretty sure no, can't see cell membrane under low power.
Organisms appear to move more rapidly under high power due to the increased magnification of the microscope, making their movements more noticeable compared to when seen under low power.
When using a microscope under high power, you typically start by locating the specimen using the coarse adjustment knob on low power before switching to high power for a more detailed view. Under high power, you may need to use the fine adjustment knob more delicately to focus due to the increased magnification. Additionally, the field of view is smaller under high power compared to low power.
10x
Low power. (10X)