Magnification of Concave Mirror with Virtual Image using Height Calculator

✖Image Height in Concave Mirror is the perpendicular distance from the principal axis to the top of the image formed by the mirror.ⓘ Image Height in Concave Mirror [h_{image,concave}]			+10% -10%
✖Object Height in Concave Mirror is the vertical distance from the top to the bottom of the object placed in front of the mirror.ⓘ Object Height in Concave Mirror [h_{object,concave}]			+10% -10%

✖The Magnification of Concave Mirror is the ratio of the height of the image formed to the height of the object placed in front of the mirror.ⓘ Magnification of Concave Mirror with Virtual Image using Height [m_concave]

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Formula

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Magnification of Concave Mirror with Virtual Image using Height

Formula

`"m"_{"concave"} = "h"_{"image,concave"}/"h"_{"object,concave"}`

Example

`"2.5"="0.70m"/"0.28m"`

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Magnification of Concave Mirror with Virtual Image using Height Solution

STEP 0: Pre-Calculation Summary

Formula Used

Magnification of Concave Mirror = Image Height in Concave Mirror/Object Height in Concave Mirror
m_concave = h_{image,concave}/h_{object,concave}
This formula uses 3 Variables

Variables Used

Magnification of Concave Mirror - The Magnification of Concave Mirror is the ratio of the height of the image formed to the height of the object placed in front of the mirror.
Image Height in Concave Mirror - (Measured in Meter) - Image Height in Concave Mirror is the perpendicular distance from the principal axis to the top of the image formed by the mirror.
Object Height in Concave Mirror - (Measured in Meter) - Object Height in Concave Mirror is the vertical distance from the top to the bottom of the object placed in front of the mirror.

STEP 1: Convert Input(s) to Base Unit

Image Height in Concave Mirror: 0.7 Meter --> 0.7 Meter No Conversion Required
Object Height in Concave Mirror: 0.28 Meter --> 0.28 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

m_concave = h_{image,concave}/h_{object,concave} --> 0.7/0.28

Evaluating ... ...

m_concave = 2.5

STEP 3: Convert Result to Output's Unit

2.5 --> No Conversion Required

FINAL ANSWER

2.5 <-- Magnification of Concave Mirror

(Calculation completed in 00.004 seconds)

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Created by Anirudh Singh

National Institute of Technology (NIT), Jamshedpur

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< 9 Concave Mirrors Calculators

Object Distance in Concave Mirror with Virtual Image

Go Object Distance in Concave Mirror Virtual Image = ((Focal Length of Concave Mirror with Virtual Image)*(Image Distance of Concave Mirror Virtual Image))/((Focal Length of Concave Mirror with Virtual Image)-(Image Distance of Concave Mirror Virtual Image))

Image Distance of Concave Mirror with Virtual Image

Go Image Distance of Concave Mirror Virtual Image = (Focal Length of Concave Mirror with Virtual Image*Object Distance in Concave Mirror Virtual Image)/((Object Distance in Concave Mirror Virtual Image)+Focal Length of Concave Mirror with Virtual Image)

Focal Length of Concave Mirror with Virtual Image

Go Focal Length of Concave Mirror with Virtual Image = (Image Distance of Concave Mirror Virtual Image*Object Distance in Concave Mirror Virtual Image)/(Object Distance in Concave Mirror Virtual Image-Image Distance of Concave Mirror Virtual Image)

Object Distance in Concave Mirror with Real Image

Go Object Distance in Concave Mirror Real Image = (Image Distance of Concave Mirror Real Image*(Focal Length of Concave Mirror with Real Image))/(Image Distance of Concave Mirror Real Image-(Focal Length of Concave Mirror with Real Image))

Focal Length of Concave Mirror with Real Image

Go Focal Length of Concave Mirror with Real Image = (Image Distance of Concave Mirror Real Image*Object Distance in Concave Mirror Real Image)/(Image Distance of Concave Mirror Real Image+(Object Distance in Concave Mirror Real Image))

Magnification of Concave Mirror with Virtual Image

Go Magnification of Concave Mirror with virtual Image = Image Distance of Concave Mirror Virtual Image/Object Distance in Concave Mirror Virtual Image

Magnification of Concave Mirror with Real Image

Go Magnification of Concave Mirror with Real Image = Image Distance of Concave Mirror Real Image/Object Distance in Concave Mirror Real Image

Magnification of Concave Mirror with Virtual Image using Height

Go Magnification of Concave Mirror = Image Height in Concave Mirror/Object Height in Concave Mirror

Focal Length of Concave Mirror

Go Focal Length of Concave Mirror = Radius of Concave Mirror/2

Magnification of Concave Mirror with Virtual Image using Height Formula

Magnification of Concave Mirror = Image Height in Concave Mirror/Object Height in Concave Mirror
m_concave = h_{image,concave}/h_{object,concave}

What is a Real Image?

A real image is formed when light rays converge at a point after reflecting off a mirror or passing through a lens. This image can be projected onto a screen and is inverted. Real images are typically produced by concave mirrors and convex lenses.

How to Calculate Magnification of Concave Mirror with Virtual Image using Height?

Magnification of Concave Mirror with Virtual Image using Height calculator uses Magnification of Concave Mirror = Image Height in Concave Mirror/Object Height in Concave Mirror to calculate the Magnification of Concave Mirror, Magnification of Concave Mirror with Virtual Image using Height formula is defined as a measure of the ratio of the height of the virtual image to the height of the object, which determines the extent to which the mirror enlarges or reduces the size of the object, providing a virtual representation of the object. Magnification of Concave Mirror is denoted by m_concave symbol.

How to calculate Magnification of Concave Mirror with Virtual Image using Height using this online calculator? To use this online calculator for Magnification of Concave Mirror with Virtual Image using Height, enter Image Height in Concave Mirror (h_{image,concave}) & Object Height in Concave Mirror (h_{object,concave}) and hit the calculate button. Here is how the Magnification of Concave Mirror with Virtual Image using Height calculation can be explained with given input values -> 2.5 = 0.7/0.28.

FAQ

What is Magnification of Concave Mirror with Virtual Image using Height?

Magnification of Concave Mirror with Virtual Image using Height formula is defined as a measure of the ratio of the height of the virtual image to the height of the object, which determines the extent to which the mirror enlarges or reduces the size of the object, providing a virtual representation of the object and is represented as m_concave = h_{image,concave}/h_{object,concave} or Magnification of Concave Mirror = Image Height in Concave Mirror/Object Height in Concave Mirror. Image Height in Concave Mirror is the perpendicular distance from the principal axis to the top of the image formed by the mirror & Object Height in Concave Mirror is the vertical distance from the top to the bottom of the object placed in front of the mirror.

How to calculate Magnification of Concave Mirror with Virtual Image using Height?

Magnification of Concave Mirror with Virtual Image using Height formula is defined as a measure of the ratio of the height of the virtual image to the height of the object, which determines the extent to which the mirror enlarges or reduces the size of the object, providing a virtual representation of the object is calculated using Magnification of Concave Mirror = Image Height in Concave Mirror/Object Height in Concave Mirror. To calculate Magnification of Concave Mirror with Virtual Image using Height, you need Image Height in Concave Mirror (h_{image,concave}) & Object Height in Concave Mirror (h_{object,concave}). With our tool, you need to enter the respective value for Image Height in Concave Mirror & Object Height in Concave Mirror 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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