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The field of view DIMS as you go to a higher power -- here's a basic explanation: Each time you increase the "power" of a microscope, you are looking at a smaller and smaller area. The LIGHT from this area gets evenly divided across your entire field of view -- so you are actually seeing less area and therefore, less light in your field of view.
What else can I help you with?
How did changing the High Power Objective affect the size of the letter and brightness of the field of view?
Changing to the High Power Objective would result in a larger magnification of the letter but a smaller field of view, making the letter appear larger but limiting the area visible around it. Additionally, increasing magnification might reduce the brightness of the field of view due to the reduced light-gathering ability of the higher power lens.
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 happens to the diameter of the field of the view when you change for low to high power?
The diameter of the field of view decreases when changing from low to high power magnification. This is because higher magnification zooms in closer on the specimen, limiting the area of the specimen that can be seen at one time.
What happens to the size of the field of view of a microscope when you switch from low power to high power(does the field of view-the amount of the object you can see-become larger of smaller)?
When you switch from low power to high power on a microscope, the field of view becomes smaller. This is because higher magnification provides a more detailed view of a smaller area, allowing you to see finer details but at the cost of seeing less of the overall specimen. Essentially, as the magnification increases, the area you can observe decreases.
Does low power or high power have a smaller field but magnifies to a greater extent?
Low power magnifies to a smaller extent and has a wider field of view, while high power magnifies to a greater extent but has a smaller field of view.
What happened to the brightness of the field vision when the magnification change from low powerv to high?
When the magnification changes from low power to high power, the brightness of the field of view typically decreases. This occurs because the same amount of light is spread over a smaller area at higher magnifications, resulting in reduced brightness.
How did changing the High Power Objective affect the size of the letter and brightness of the field of view?
Changing to the High Power Objective would result in a larger magnification of the letter but a smaller field of view, making the letter appear larger but limiting the area visible around it. Additionally, increasing magnification might reduce the brightness of the field of view due to the reduced light-gathering ability of the higher power lens.
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 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 happens to the diameter of the field of the view when you change for low to high power?
The diameter of the field of view decreases when changing from low to high power magnification. This is because higher magnification zooms in closer on the specimen, limiting the area of the specimen that can be seen at one time.
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.
When switching to a higher power lens what happens to the field of view?
The field of view becomes narrower.
What happens to the size of the field of view of a microscope when you switch from low power to high power(does the field of view-the amount of the object you can see-become larger of smaller)?
When you switch from low power to high power on a microscope, the field of view becomes smaller. This is because higher magnification provides a more detailed view of a smaller area, allowing you to see finer details but at the cost of seeing less of the overall specimen. Essentially, as the magnification increases, the area you can observe decreases.
Does low power or high power have a smaller field but magnifies to a greater extent?
Low power magnifies to a smaller extent and has a wider field of view, while high power magnifies to a greater extent but has a smaller field of view.
Why is locating an object more difficult if you start with the high-power objective rather than the low power obejctive exspically the brightness whats up with that?
The reason it is more difficult is that the 'field of view' is much smaller, the higher the objective power. In other words, you don't have to be so exactly 'on target' with a lower objective power, as the field of view is larger in proportion to the object being viewed, so the object can be farther off to one side or the other, and still be seen. Once found in the lower power field, center the object in the field and then switch to the higher power- the object should then be in the higher power field of view. This is true for microscopes and telescopes, as well as any instrument that magnifies at different powers of magnification.
What is the approximate length of a cell that fills one half of the field of view under high power if the field of view for high power is 300 microns?
If the field of view for high power is 300 microns, and a cell fills half of that field, then the approximate length of the cell would be around 150 microns. This is calculated by dividing the total field of view by 2.
Why is an object no longer in view as one switches from low power to high power using the microscope?
At a higher power the field of view is smaller and the object may no longer be in the field of view. Or it may have gone out of focus.
