Oh, dude, so when you have a magnification of x240,000, in standard form, that's like 2.4 x 10^5. It's just a fancy way of saying you're zooming in real close, like when you're trying to find Waldo in those books, but with numbers instead. Cool, right?
The total magnification is the object magnification for example 4x,10x etc. times eyepiece magnification usually 10x and you get the total magnification. The objective lens magnification is the lens right above the slide usually 4x,10x etc.
No, peroxisomes are generally not visible under standard light microscopy at 400X magnification. They are too small and require higher magnifications and specific staining techniques to be visualized.
multiply the magnification of the eyepiece by the magnification of the high objective lens. for example, if the eyepiece magnifies x10, and the high objective magnifies x40, then the total magnification would be 400x
The total magnification is equal to the magnification of the eyepiece multiplied by the magnification of the objective lens. So in this case the objective lens would need to be 100X.
Total magnification is calculated by multiplying the magnification of the objective lens by the magnification of the eyepiece lens. For example, if the objective lens has a magnification of 40x and the eyepiece lens has a magnification of 10x, the total magnification would be 40x * 10x = 400x.
The total magnification is the object magnification for example 4x,10x etc. times eyepiece magnification usually 10x and you get the total magnification. The objective lens magnification is the lens right above the slide usually 4x,10x etc.
The total magnification of a light microscope with a 40x objective lens is calculated by multiplying the magnification of the objective lens by the magnification of the eyepiece lens. Assuming a standard eyepiece magnification of 10x, the total magnification would be 400x (40x objective lens * 10x eyepiece lens = 400x total magnification).
It depends upon the standard of your SCHOOL.
The total magnification of a microscope when the low power objective is locked in place is the product of the magnification of the eyepiece and the magnification of the objective lens. For most microscopes, the low power objective lens has a magnification of around 10x, and the standard eyepiece magnification is 10x. Therefore, the total magnification would be 100x.
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.
Weta
3x magnification is a good start, but you really must have a lighted mirror, otherwise it could be a tedious exercise.
A rough rule-of-thumb magnification level is ten times normal vision, written as 10x. This is the general magnification standard for jewelery. Some diamond merchants, however, may use a stronger magnification by personal choice.
The eyepiece of a microscope provides a standard magnification of 10x, which is designed to work in conjunction with the objective lens to achieve the overall magnification of the specimen being observed. The eyepiece's role is to further magnify the image produced by the objective lens, resulting in a clearer and larger view of the specimen.
That depends on the type of microscope you are using, so check the lab you work or go to school in. At my lab, our microscopes have 4x, 10x, 40x, 100x magnification lenses.
No, peroxisomes are generally not visible under standard light microscopy at 400X magnification. They are too small and require higher magnifications and specific staining techniques to be visualized.
Phosphates and Sugars formthe sides of the DNA ladder~