Magnetic Susceptibility using relative permeability Calculator

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✖Magnetic Permeability is a property of a material's ability to respond to a magnetic field.It quantifies how easily a substance can be magnetized in the presence of a magnetic field.ⓘ Magnetic Permeability [μ]

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✖Magnetic Susceptibility is a measure of the degree to which the magnetic moments of the material align with the applied field.ⓘ Magnetic Susceptibility using relative permeability [χ_m]

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Formula

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Magnetic Susceptibility using relative permeability

Formula

`"χ"_{"m"} = "μ"-1`

Example

`"2930H/m"="29.31H/cm"-1`

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Magnetic Susceptibility using relative permeability Solution

STEP 0: Pre-Calculation Summary

Formula Used

Magnetic Susceptibility = Magnetic Permeability-1
χ_m = μ-1
This formula uses 2 Variables

Variables Used

Magnetic Susceptibility - (Measured in Henry per Meter) - Magnetic Susceptibility is a measure of the degree to which the magnetic moments of the material align with the applied field.
Magnetic Permeability - (Measured in Henry per Meter) - Magnetic Permeability is a property of a material's ability to respond to a magnetic field.It quantifies how easily a substance can be magnetized in the presence of a magnetic field.

STEP 1: Convert Input(s) to Base Unit

Magnetic Permeability: 29.31 Henry per Centimeter --> 2931 Henry per Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

χ_m = μ-1 --> 2931-1

Evaluating ... ...

χ_m = 2930

STEP 3: Convert Result to Output's Unit

2930 Henry per Meter --> No Conversion Required

FINAL ANSWER

2930 Henry per Meter <-- Magnetic Susceptibility

(Calculation completed in 00.004 seconds)

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Credits

Created by Souradeep Dey

National Institute of Technology Agartala (NITA), Agartala, Tripura

Souradeep Dey has created this Calculator and 25+ more calculators!

Verified by Priyanka Patel

Lalbhai Dalpatbhai College of engineering (LDCE), Ahmedabad

Priyanka Patel has verified this Calculator and 10+ more calculators!

< 20 Magnetic Forces and Materials Calculators

Biot-Savart Equation

Go Magnetic Field Strength = int(Electric Current*x*sin(Theta)/(4*pi*(Perpendicular Distance^2)),x,0,Integral Path Length)

Retarded Vector Magnetic Potential

Go Retarded Vector Magnetic Potential = int((Magnetic Permeability of Medium*Amperes Circuital Current*x)/(4*pi*Perpendicular Distance),x,0,Length)

Biot-Savart Equation using Current Density

Go Magnetic Field Strength = int(Current Density*x*sin(Theta)/(4*pi*(Perpendicular Distance)^2),x,0,Volume)

Vector Magnetic Potential

Go Vector Magnetic Potential = int(([Permeability-vacuum]*Electric Current*x)/(4*pi*Perpendicular Distance),x,0,Integral Path Length)

Vector Magnetic Potential using Current Density

Go Vector Magnetic Potential = int(([Permeability-vacuum]*Current Density*x)/(4*pi*Perpendicular Distance),x,0,Volume)

Magnetic Force by Lorentz Force Equation

Go Magnetic force = Charge of Particle*(Electric Field+(Speed of Charged Particle*Magnetic Flux Density*sin(Theta)))

Electric Potential in Magnetic Field

Go Electric Potential = int((Volume Charge Density*x)/(4*pi*Permittivity*Perpendicular Distance),x,0,Volume)

Resistance of Cylindrical Conductor

Go Resistance of Cylindrical Conductor = Length of Cylindrical Conductor/(Electrical Conductivity*Cross Sectional Area of Cylindrical)

Magnetic Scalar Potential

Go Magnetic Scalar Potential = -(int(Magnetic Field Strength*x,x,Upper Limit,Lower Limit))

Current Flowing through N-Turn Coil

Go Electric Current = (int(Magnetic Field Strength*x,x,0,Length))/Number of Turns of Coil

Magnetization using Magnetic Field Strength, and Magnetic Flux Density

Go Magnetization = (Magnetic Flux Density/[Permeability-vacuum])-Magnetic Field Strength

Magnetic Flux Density using Magnetic Field Strength, and Magnetization

Go Magnetic Flux Density = [Permeability-vacuum]*(Magnetic Field Strength+Magnetization)

Ampere's Circuital Equation

Go Amperes Circuital Current = int(Magnetic Field Strength*x,x,0,Integral Path Length)

Absolute Permeability using Relative Permeability and Permeability of Free Space

Go Absolute Permeability of Material = Relative Permeability of Material*[Permeability-vacuum]

Electromotive Force about Closed Path

Go Electromotive Force = int(Electric Field*x,x,0,Length)

Free Space Magnetic Flux Density

Go Free space Magnetic Flux Density = [Permeability-vacuum]*Magnetic Field Strength

Net Bound Current

Go Net Bound Current = int(Magnetization,x,0,Length)

Internal Inductance of Long Straight Wire

Go Internal Inductance of Long Straight Wire = Magnetic Permeability/(8*pi)

Magnetomotive Force given Reluctance and Magnetic Flux

Go Magnetomotive Voltage = Magnetic Flux*Reluctance

Magnetic Susceptibility using relative permeability

Go Magnetic Susceptibility = Magnetic Permeability-1

Magnetic Susceptibility using relative permeability Formula

Magnetic Susceptibility = Magnetic Permeability-1
χ_m = μ-1

What is the significance of magnetic susceptibility?

Magnetization plays a fundamental role in many applications and determines how magnetic materials behave. In order to build and optimize technology like transformers, magnetic storage devices, and medical imaging equipment, it is essential to understand how materials respond to external magnetic fields through magnetization. It affects sectors like electronics and energy by making it possible to create magnetic materials with certain qualities. Furthermore, magnetization is essential for investigating basic physics and advancing a variety of disciplines, from materials science to medical diagnostics. For the advancement of science and technology, magnetization must be studied and controlled.

How to Calculate Magnetic Susceptibility using relative permeability?

Magnetic Susceptibility using relative permeability calculator uses Magnetic Susceptibility = Magnetic Permeability-1 to calculate the Magnetic Susceptibility, Magnetic Susceptibility using relative permeability defines Magnetic Susceptibility is a dimensionless parameter that characterizes how a material responds to an applied magnetic field. It is related to relative permeability, which quantifies how easily a material can be magnetized compared to a vacuum. Magnetic Susceptibility is denoted by χ_m symbol.

How to calculate Magnetic Susceptibility using relative permeability using this online calculator? To use this online calculator for Magnetic Susceptibility using relative permeability, enter Magnetic Permeability (μ) and hit the calculate button. Here is how the Magnetic Susceptibility using relative permeability calculation can be explained with given input values -> 2930 = 2931-1.

FAQ

What is Magnetic Susceptibility using relative permeability?

Magnetic Susceptibility using relative permeability defines Magnetic Susceptibility is a dimensionless parameter that characterizes how a material responds to an applied magnetic field. It is related to relative permeability, which quantifies how easily a material can be magnetized compared to a vacuum and is represented as χ_m = μ-1 or Magnetic Susceptibility = Magnetic Permeability-1. Magnetic Permeability is a property of a material's ability to respond to a magnetic field.It quantifies how easily a substance can be magnetized in the presence of a magnetic field.

How to calculate Magnetic Susceptibility using relative permeability?

Magnetic Susceptibility using relative permeability defines Magnetic Susceptibility is a dimensionless parameter that characterizes how a material responds to an applied magnetic field. It is related to relative permeability, which quantifies how easily a material can be magnetized compared to a vacuum is calculated using Magnetic Susceptibility = Magnetic Permeability-1. To calculate Magnetic Susceptibility using relative permeability, you need Magnetic Permeability (μ). With our tool, you need to enter the respective value for Magnetic Permeability 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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