It means that the object you are observing is shown at 100 times its actual size.
A magnification of 100x typically requires the use of a 100x objective lens on a microscope. Different microscopes may have varying objective lens magnifications, but for a total magnification of 100x, the 100x objective is commonly used.
The total magnification achieved when using a 100x oil immersion lens with a 10x binocular eyepiece is 1000x (100x objective magnification x 10x eyepiece magnification).
The oil immersion lens or objective has power 90X-100X and an eyepiece lens generally in light microscope comes with 10X so total magnification of oil immersion lens is 100X10 = 1,000
A magnification of 40x means the object appears 40 times larger than its actual size, while a magnification of 100x means the object appears 100 times larger than its actual size. The higher the magnification, the more details and smaller features of the object can be observed.
it is 50 on my microscope.............................
A magnification of 100x typically requires the use of a 100x objective lens on a microscope. Different microscopes may have varying objective lens magnifications, but for a total magnification of 100x, the 100x objective is commonly used.
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The total magnification achieved when using a 100x oil immersion lens with a 10x binocular eyepiece is 1000x (100x objective magnification x 10x eyepiece magnification).
The objective power in this case would be 10X, because it is the magnification produced by the eyepiece alone. The total magnification of 100X is achieved by multiplying the eyepiece magnification (10X) with the objective magnification, which would be 10X in this scenario.
The oil immersion lens or objective has power 90X-100X and an eyepiece lens generally in light microscope comes with 10X so total magnification of oil immersion lens is 100X10 = 1,000
The 100x magnification typically has the shortest working distance due to its high magnification power, which requires the lens to be very close to the specimen for focusing.
The total magnification would be 100x. This is because when two lenses are used together, the magnification of each lens is multiplied to find the total magnification. So, 10x magnification from the first lens multiplied by 10x magnification from the second lens gives a total magnification of 100x.
The total magnification of a low power objective (LPO) is typically around 100x, a high power objective (HPO) is around 400x, and an oil immersion objective (OIO) can be up to 1000x. This means an oil immersion objective provides the highest magnification among the three.
To achieve a total magnification of 100x, you would use a 10x ocular lens (eyepiece) with a 10x objective lens. The total magnification is calculated by multiplying the magnification of the ocular lens (10x) by the magnification of the objective lens (10x).
The magnification of a microscope is calculated by multiplying the magnification of the objective lens by the magnification of the eyepiece. In this case, if you have a 10x low power objective and a 10x high power objective, the total magnification would be 100x (10x * 10x) for both objectives when used with the same eyepiece magnification.
A magnification of 40x means the object appears 40 times larger than its actual size, while a magnification of 100x means the object appears 100 times larger than its actual size. The higher the magnification, the more details and smaller features of the object can be observed.
Total magnification with a low power objective lens is calculated by multiplying the magnification power of the objective lens by the magnification of the eyepiece (ocular lens). Typically, a low power objective lens has a magnification of 10x or 4x, and when combined with a standard 10x eyepiece, the total magnification would be 100x or 40x, respectively. Therefore, total magnification for low power objectives usually ranges from 40x to 100x.