when viewing objects under high-power, the field of view is smaller, but you are able to see more details.
when viewing objects under high-power, the field of view is smaller, but you are able to see more details.
when viewing objects under high-power, the field of view is smaller, but you are able to see more details.
when viewing objects under high-power, the field of view is smaller, but you are able to see more details.
when viewing objects under high-power, the field of view is smaller, but you are able to see more details.
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physicsclassroom.com larger field of view bro.
The advantage of LPO (Low Power Objective) is that it provides increased magnification and resolution for viewing smaller details on a specimen. The disadvantage is that it has a smaller field of view and less depth of field compared to lower magnification objectives. The advantage of HPO (High Power Objective) is that it offers even higher magnification for detailed examination of specimens. The disadvantage is that it has a very narrow depth of field, making it challenging to focus on thicker specimens or to view multiple layers simultaneously.
When viewing specimens or objects under a microscope, it should be set to a low power first. This allows for a wider field of view that makes an object easier to locate.
When viewing specimens or objects under a microscope, it should be set to a low power first. This allows for a wider field of view that makes an object easier to locate.
A magnet creates a magnetic field. This field is a force that affects magnetic objects. Like any other force, it can be used to move objects.
this is physical field produced by electrically charged objects.
A magnet has a magnetic field around it. The magnetic field causes a magnetic force that can attract objects to the magnet.