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Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision Calculator

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✖Magnifying Power of Telescope is the ability of a telescope to enlarge objects, making them appear closer and more detailed than they actually are.ⓘ Magnifying Power of Telescope [M_tele]			+10% -10%
✖Object Distance is the length between an object being observed and the lens of a microscope or telescope, affecting the magnification and clarity of the image.ⓘ Object Distance [U₀]			+10% -10%
✖Focal Length of Objective is the distance between the objective lens and the point where the object is in focus in a microscope or telescope.ⓘ Focal Length of Objective [f_o]			+10% -10%

✖Magnification of Eyepiece is the degree of enlargement of an object's image produced by the eyepiece lens in microscopes and telescopes.ⓘ Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision [M_e]

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Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision Solution

STEP 0: Pre-Calculation Summary

Formula Used

Magnification of Eyepiece = Magnifying Power of Telescope*((Object Distance+Focal Length of Objective)/Focal Length of Objective)
M_e = M_tele*((U₀+f_o)/f_o)
This formula uses 4 Variables

Variables Used

Magnification of Eyepiece - Magnification of Eyepiece is the degree of enlargement of an object's image produced by the eyepiece lens in microscopes and telescopes.
Magnifying Power of Telescope - Magnifying Power of Telescope is the ability of a telescope to enlarge objects, making them appear closer and more detailed than they actually are.
Object Distance - (Measured in Meter) - Object Distance is the length between an object being observed and the lens of a microscope or telescope, affecting the magnification and clarity of the image.
Focal Length of Objective - (Measured in Meter) - Focal Length of Objective is the distance between the objective lens and the point where the object is in focus in a microscope or telescope.

STEP 1: Convert Input(s) to Base Unit

Magnifying Power of Telescope: 25 --> No Conversion Required
Object Distance: 3.29 Centimeter --> 0.0329 Meter (Check conversion here)
Focal Length of Objective: 100 Centimeter --> 1 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

M_e = M_tele*((U₀+f_o)/f_o) --> 25*((0.0329+1)/1)

Evaluating ... ...

M_e = 25.8225

STEP 3: Convert Result to Output's Unit

25.8225 --> No Conversion Required

FINAL ANSWER

25.8225 <-- Magnification of Eyepiece

(Calculation completed in 00.004 seconds)

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< Compound Microscope Calculators

Length of Compound Microscope

LaTeX Go Length of Microscope = Distance between Two Lens+(Least Distance of Distinct Vision*Focal Length of Eyepiece)/(Least Distance of Distinct Vision+Focal Length of Eyepiece)

Magnifying Power of Compound Microscope at Infinity

LaTeX Go Magnifying Power of Microscope = (Distance between Two Lens*Least Distance of Distinct Vision)/(Object Distance*Focal Length of Eyepiece)

Magnifying Power of Compound Microscope

LaTeX Go Magnifying Power of Microscope = (1+Least Distance of Distinct Vision/Focal Length of Eyepiece)*Distance between Two Lens/Object Distance

Length of Compound Microscope when Image Forms at Infinity

LaTeX Go Length of Microscope = Distance between Two Lens+Focal Length of Eyepiece

Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision Formula

LaTeX Go

Magnification of Eyepiece = Magnifying Power of Telescope*((Object Distance+Focal Length of Objective)/Focal Length of Objective)
M_e = M_tele*((U₀+f_o)/f_o)

What is a Compound Microscope?

A compound microscope is a high power (high magnification) microscope that uses a compound lens system. A compound microscope has multiple lenses: the objective lens (typically 4x, 10x, 40x or 100x) is compounded (multiplied) by the eyepiece lens (typically 10x) to obtain a high magnification of 40x, 100x, 400x and 1000x. Higher magnification is achieved by using two lenses rather than just a single magnifying lens. While the eyepieces and the objective lenses create high magnification, a condenser beneath the stage focuses the light directly into the sample.

How to Calculate Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision?

Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision calculator uses Magnification of Eyepiece = Magnifying Power of Telescope*((Object Distance+Focal Length of Objective)/Focal Length of Objective) to calculate the Magnification of Eyepiece, Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision formula is defined as a measure of the magnifying power of an eyepiece in a microscope or telescope when the image is formed at the least distance of distinct vision, which is the minimum distance at which the human eye can see an object clearly. Magnification of Eyepiece is denoted by M_e symbol.

How to calculate Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision using this online calculator? To use this online calculator for Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision, enter Magnifying Power of Telescope (M_tele), Object Distance (U₀) & Focal Length of Objective (f_o) and hit the calculate button. Here is how the Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision calculation can be explained with given input values -> 25.8225 = 25*((0.0329+1)/1).

FAQ

What is Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision?

Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision formula is defined as a measure of the magnifying power of an eyepiece in a microscope or telescope when the image is formed at the least distance of distinct vision, which is the minimum distance at which the human eye can see an object clearly and is represented as M_e = M_tele*((U₀+f_o)/f_o) or Magnification of Eyepiece = Magnifying Power of Telescope*((Object Distance+Focal Length of Objective)/Focal Length of Objective). Magnifying Power of Telescope is the ability of a telescope to enlarge objects, making them appear closer and more detailed than they actually are, Object Distance is the length between an object being observed and the lens of a microscope or telescope, affecting the magnification and clarity of the image & Focal Length of Objective is the distance between the objective lens and the point where the object is in focus in a microscope or telescope.

How to calculate Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision?

Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision formula is defined as a measure of the magnifying power of an eyepiece in a microscope or telescope when the image is formed at the least distance of distinct vision, which is the minimum distance at which the human eye can see an object clearly is calculated using Magnification of Eyepiece = Magnifying Power of Telescope*((Object Distance+Focal Length of Objective)/Focal Length of Objective). To calculate Magnification of Eyepiece when Image Formed at Least Distance of Distinct Vision, you need Magnifying Power of Telescope (M_tele), Object Distance (U₀) & Focal Length of Objective (f_o). With our tool, you need to enter the respective value for Magnifying Power of Telescope, Object Distance & Focal Length of Objective and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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