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The total magnification of a microscope is found by multiplying the ocular and objective together.

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What is the total magnification of a microscope with a 10X ocular lens and a 45X objective lens?

The total magnification is calculated by multiplying the magnification of the ocular lens by the magnification of the objective lens. In this case, the total magnification would be 10X (ocular) * 45X (objective) = 450X.


How is the total magnification determined?

The total magnification in a microscope is determined by multiplying the magnification of the objective lens by the magnification of the eyepiece. For example, if the objective lens has a magnification of 10x and the eyepiece has a magnification of 5x, the total magnification would be 10x * 5x = 50x.


What would the magnification of your microscope be if you used a 5x eyepiece and a 10x objective?

It would be 50x. To find the magnification, you just have to multiply the number eyepiece and the number objective. So for example, * A 10x eyepiece and a 40x objective would have a magnification of 400x * A 10x eyepiece and a 100x objective would have a magnification of 1,000x


If 5x instead of 10x oculars were used in your microscope with the same objectives?

Using 5x oculars instead of 10x will result in a lower total magnification for the microscope system. The magnification formula for microscopes is the product of the magnification of the ocular lens and the objective lens. Therefore, with 5x oculars, you will achieve half the total magnification compared to using 10x oculars with the same objectives.


What is typical magnification of the ocular lens on a light microscope?

The typical magnification of the ocular lens on a light microscope is usually 10x, although some microscopes may have ocular lenses with magnifications of 5x, 15x, or even higher. This magnification works in conjunction with the objective lenses to provide a total magnification that can range from 40x to over 1000x, depending on the combination of lenses used.


How much is the magnification power of the specimen under microscopic observasion with objective lens of 46x and eyepiece lens of 5x?

The total magnification is calculated by multiplying the magnification of the objective lens by the magnification of the eyepiece lens. In this case, the total magnification would be 46x (objective) x 5x (eyepiece) = 230x magnification of the specimen.


What is the magnification of microscope if an eyepiece is marked 5x and an objective lens 10x?

10 x 5 = 50 the magnification of microscope is 50


What magnifications are available if the eyepiece can magnify 15 times?

If the eyepiece magnifies 15 times, then when used with a 10x objective lens, the total magnification would be 150x (15x eyepiece magnification x 10x objective magnification). Additional magnifications could be achieved by using different objective lenses, such as 5x for a total magnification of 75x or 40x for a total magnification of 600x.


What is the total magnification for each lens setting on a microoscope with 15x oculars and 4x 10x 45x and 97x objectives lens?

The total magnification for each lens setting on a microscope with 15x oculars and various objective lenses would be as follows: 4x objective lens: 60x (4x * 15x) 10x objective lens: 150x (10x * 15x) 45x objective lens: 675x (45x * 15x) 97x objective lens: 1455x (97x * 15x)


What is the magnification number of LPO?

LPO stands for low power objective, which typically has a magnification number of 5x or 10x. This means that when using the LPO lens, the image appears 5 or 10 times larger than its actual size.


What is the 40 objective lens on a microscope?

The 40x objective lens is one of the (usually) 3 objective lenses. It magnifies the image by 40x (hence the name). However, the image you view doesn't have a magnification of 40. There is the ocular lens, which typically is 5x or 10x, in addition to the objective lens.


How can you work out magnification when using a microscope?

Well, its easy. Its Image lenght over Object lenght. In other words,you divide the lenght of your diagram with the lenght of the real object being drawen. If the answer is not up to one, then your diagram is smaller than the real one.