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In microscope what is x in 10x?
x means the magnification times. 10x means it is magnified 10 times.
What would a 14.5 angle be under a magnifying glass that magnifies times two?
28.5
How many times does the word 'magnify' appear in the Bible?
In the King James version the word - magnify - appears 19 times the word - magnified - appears 21 times
What is x to the second power times x to the second power times 3x times 2?
6x5
What is 2 to the 4th power times 5 to the 3rd power?
2 to the 4th power times 5 to the 3rd power = 2,000
What is the magnifying power of the eyepiece used if a cell magnified 200 times under HPO?
Impossible to answer ! 200x magnification could be created by an eyepiece with 4x and an objective lens of 50x magnification - but that's just ONE example !
What is the rule for the total magnification of a compound microscope?
The total magnification of a compound microscope is calculated by multiplying the magnification of the objective lens by the magnification of the eyepiece. So, total magnification = magnification of objective lens x magnification of eyepiece.
What is the magnification of the eyepiece on a microscope?
The magnification of the eyepiece on a microscope is typically 10x. This means that when you look through the eyepiece, the image you see will be magnified 10 times compared to what you would see with the naked eye.
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 Equals eyepiece times objective lens?
The product of the eyepiece magnification and the objective lens magnification gives the total magnification of a compound microscope. This total magnification determines how much larger the specimen will appear when viewed through the microscope.
How many times would a cell be magnified if you viewed it through the low power lens?
Typically, the low power lens magnifies a specimen by 10x. So, if you view a cell through the low power lens, the cell would be magnified 10 times its actual size.
What is the magnifying power of the LPO?
The magnifying power of the LPO (low power objective) lens on a microscope is typically 10x. This means that when viewing an object through the LPO lens, it will appear 10 times larger than its actual size.
How does 4x on the low power equal 40 x on the microscope?
The objective lens (right above the slide stage) is 4x. The eyepiece (what you look into) is 10x. 4 times 10 = 40. Whatever the objective lens power is, you have to multiply it by the eyepiece power (usually 10x) to get the overall magnification.
What is the function of ocular?
The function of the ocular (eyepiece) is to magnify the image produced by the objective lens in a microscope or telescope, allowing the user to see the image more clearly. It typically provides a fixed magnification power for the device.
What is the maximum power of magnification of a compound microscope?
The maximum power of magnification of a compound microscope is typically around 1000x. This level of magnification is achieved by combining the magnifying power of the objective lens with that of the eyepiece. Going beyond this level can lead to distortion and reduced image quality.
How do you determine a magnifying glass strength?
The strength of a magnifying glass, or its magnification power, is typically indicated by a number followed by "X" (for example, 2X, 3X, 5X). This number represents how many times the object will appear larger when viewed through the magnifying glass compared to viewing it with the naked eye. The higher the number, the greater the magnification power of the magnifying glass.
What is the magnifying power?
The magnifying power refers to how many times larger an object appears when viewed through a magnifying lens or instrument. It is calculated by dividing the focal length of the lens by the focal length when the object is at the near point of distinct vision (25 cm). This ratio determines the magnification level of the lens.
