Just like when you are closer to an object you are able to see detail, but when you move farther away from it, you see more of the object but less of the detail. For eg, lets consider an example of a calendar hanging on the wall. When you are close to it, you may just be able to see the calender, with the month and the dates and days. As you move farther away from it, you would slowly not be able to see the dates and days too clearly, but you would also be able to see more of the wall on which the calender is hanging. Hence when you are able to see a larger field of view, you see much lesser detail. In scientific terms, the magnification is smaller. As you increase the microscope magnification, you would be able to see more detail, but lesser field.
You can go without them, it all depends on what your employee would prefer. Some employees are going to want the extra height, others won't really care.
Low Objective
Low power. (10X)
It becomes smaller as the detail becomes better.
Depth of field decreases from low to high. This means what you see under the microscope is blurry. If both objects are not blurry, this means you have high depth-of-field.
It bends/warps and blurs in a circular shape around the edges, as the light bouncing off of objects is hitting your eyes at a bend relative to your speed.
Magnification relates to how large you can see an object - making small items larger than they normally appear. Resolution relates to the amount of detail you can see in the object or image. The higher the resolution, the more detail that is visible.
40x is magnified more, so if you zoom in on something, you're only seeing a part of what it was before. Versus, if you zoom out, you see more. It's not as detailed, but it's a larger field of view.
low
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.
You can go without them, it all depends on what your employee would prefer. Some employees are going to want the extra height, others won't really care.
Low power. (10X)
physicsclassroom.com larger field of view bro.
200.... i have the same question for my 7th grade science class :(
Yes. Two objects with the same magnetic charge repel eachother. So an object on top of a larger, same magnetic field, then it will in effect hover. (There is a train that uses this method)
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.