10 times
It depends on what magnification the ocular lens is (usually 10x), then you multiply that by the objective lens magnification (what you said to be 40x). So the microscope would magnify your specimen by 400 times.
A 30 times lens would magnify an object by 30 times its original size when viewed through the lens.
430x is the total magnification of the microscope, which is the product of the magnification of the eyepiece lens (10x) and the objective lens (43x). This means that objects viewed through this microscope appear 430 times larger than they actually are.
In the case quoted, 10 is the magnification factor of the binoculars. In other words, objects appear to be 10 times closer viewed through the binoculars compared to with the naked eye.
Compound microscopes typically have a magnification level ranging from 40x to 1000x, which means objects can be viewed up to 1000 times larger than their actual size. This magnification level can be achieved through the combination of the eyepiece and objective lenses in the microscope.
The letter "e" is magnified 1000x under an LPO (Low Power Objective) microscope. This means that the image of the letter "e" appears 1000 times larger than its actual size when viewed through the LPO lens.
It depends on what magnification the ocular lens is (usually 10x), then you multiply that by the objective lens magnification (what you said to be 40x). So the microscope would magnify your specimen by 400 times.
The magnifying power of a microscope refers to how much larger an object appears when viewed through the microscope compared to when viewed with the naked eye. It is typically represented by a number followed by "x" (e.g. 10x means the object appears 10 times larger).
number of times an image is magnified
number of times an image is magnified
A 30 times lens would magnify an object by 30 times its original size when viewed through the lens.
Galileo, about 1610
x means the magnification times. 10x means it is magnified 10 times.
The magnifying power of the eyepiece can be calculated by multiplying the magnification of the eyepiece by the magnification of the objective lens. In this case, if the eyepiece magnifies 10 times and the total magnification is 100 times, the magnifying power of the eyepiece alone is 10 times. Thus, the eyepiece provides a magnification of 10x, while the objective lens contributes the remaining magnification.
430x is the total magnification of the microscope, which is the product of the magnification of the eyepiece lens (10x) and the objective lens (43x). This means that objects viewed through this microscope appear 430 times larger than they actually are.
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.
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