HCF of three numbers

Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision Calculator

Physics Chemistry Engineering Financial More >>

↳

Mechanical Aerospace Basic Physics Others and Extra

⤿

Microscopes and Telescopes Automobile Design of Automobile Elements Design of Machine Elements More >>

⤿

Simple microscope Astronomical Telescope Compound Microscope Resolving Limit More >>

✖Least Distance of Distinct Vision is the minimum distance at which the human eye can distinguish two points as separate in microscopes and telescopes.ⓘ Least Distance of Distinct Vision [D]			+10% -10%
✖Magnifying Power of Microscope is the ability of a microscope to enlarge objects, allowing for detailed observation of tiny structures and specimens.ⓘ Magnifying Power of Microscope [M_micro]			+10% -10%

✖Focal Length of Convex Lens is the distance between the lens and the image it forms, used in micro telescopes to magnify objects clearly.ⓘ Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision [F_{convex lens}]

⎘ Copy

👎

Formula

LaTeX

Reset

👍

Download Microscopes and Telescopes Formulas PDF PDF Image

Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision Solution

STEP 0: Pre-Calculation Summary

Formula Used

Focal Length of Convex Lens = Least Distance of Distinct Vision/(Magnifying Power of Microscope-1)
F_{convex lens} = D/(M_micro-1)
This formula uses 3 Variables

Variables Used

Focal Length of Convex Lens - (Measured in Meter) - Focal Length of Convex Lens is the distance between the lens and the image it forms, used in micro telescopes to magnify objects clearly.
Least Distance of Distinct Vision - (Measured in Meter) - Least Distance of Distinct Vision is the minimum distance at which the human eye can distinguish two points as separate in microscopes and telescopes.
Magnifying Power of Microscope - Magnifying Power of Microscope is the ability of a microscope to enlarge objects, allowing for detailed observation of tiny structures and specimens.

STEP 1: Convert Input(s) to Base Unit

Least Distance of Distinct Vision: 25 Centimeter --> 0.25 Meter (Check conversion here)
Magnifying Power of Microscope: 11 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

F_{convex lens} = D/(M_micro-1) --> 0.25/(11-1)

Evaluating ... ...

F_{convex lens} = 0.025

STEP 3: Convert Result to Output's Unit

0.025 Meter -->2.5 Centimeter (Check conversion here)

FINAL ANSWER

2.5 Centimeter <-- Focal Length of Convex Lens

(Calculation completed in 00.020 seconds)

You are here -

Home » Physics » Microscopes and Telescopes » Mechanical » Simple microscope » Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision

Credits

Created by Ravi Khiyani

Shri Govindram Seksaria Institute of Technology and Science (SGSITS), Indore

Ravi Khiyani has created this Calculator and 200+ more calculators!

Verified by Team Softusvista

Softusvista Office (Pune), India

Team Softusvista has verified this Calculator and 1100+ more calculators!

< Simple microscope Calculators

Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision

LaTeX Go Focal Length of Convex Lens = Least Distance of Distinct Vision/(Magnifying Power of Microscope-1)

Magnifying Power of Simple Microscope

LaTeX Go Magnifying Power of Microscope = 1+Least Distance of Distinct Vision/Focal Length of Convex Lens

Magnifying Power of Simple Microscope when Image Formed at Infinity

LaTeX Go Magnifying Power of Microscope = Least Distance of Distinct Vision/Focal Length of Convex Lens

Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision Formula

LaTeX Go

Focal Length of Convex Lens = Least Distance of Distinct Vision/(Magnifying Power of Microscope-1)
F_{convex lens} = D/(M_micro-1)

How Does A Simple Microscope Work?

Simple microscopes make use of a biconvex lens to magnify the image of a specimen. Nowadays, these lenses often consist of two glass elements with color correction abilities. The closer the object is to the lens, the larger the magnified image becomes.

How to Calculate Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision?

Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision calculator uses Focal Length of Convex Lens = Least Distance of Distinct Vision/(Magnifying Power of Microscope-1) to calculate the Focal Length of Convex Lens, Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision formula is defined as a measure of the distance between the object and the lens of a simple microscope 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. Focal Length of Convex Lens is denoted by F_{convex lens} symbol.

How to calculate Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision using this online calculator? To use this online calculator for Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision, enter Least Distance of Distinct Vision (D) & Magnifying Power of Microscope (M_micro) and hit the calculate button. Here is how the Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision calculation can be explained with given input values -> 250 = 0.25/(11-1).

FAQ

What is Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision?

Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision formula is defined as a measure of the distance between the object and the lens of a simple microscope 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 F_{convex lens} = D/(M_micro-1) or Focal Length of Convex Lens = Least Distance of Distinct Vision/(Magnifying Power of Microscope-1). Least Distance of Distinct Vision is the minimum distance at which the human eye can distinguish two points as separate in microscopes and telescopes & Magnifying Power of Microscope is the ability of a microscope to enlarge objects, allowing for detailed observation of tiny structures and specimens.

How to calculate Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision?

Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision formula is defined as a measure of the distance between the object and the lens of a simple microscope 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 Focal Length of Convex Lens = Least Distance of Distinct Vision/(Magnifying Power of Microscope-1). To calculate Focal Length of Simple Microscope when Image Forms at Least Distance of Distinct Vision, you need Least Distance of Distinct Vision (D) & Magnifying Power of Microscope (M_micro). With our tool, you need to enter the respective value for Least Distance of Distinct Vision & Magnifying Power of Microscope and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

Home

FREE PDFs

🔍 Search