Reluctance of Joints Calculator

✖Specimen Extension Factor is a dimensionless factor that quantifies the relative contribution of the joints and yokes to the overall reluctance of the magnetic circuit.ⓘ Specimen Extension Factor [m]			+10% -10%
✖Magnetic Circuit Reluctance is the measure of opposition to the flow of magnetic flux in a material, determined by its geometry and magnetic properties.ⓘ Magnetic Circuit Reluctance [R]			+10% -10%
✖Yokes Reluctance refers to the reluctance of the yoke material or the portion of the magnetic circuit that includes the yoke.ⓘ Yokes Reluctance [R_y]			+10% -10%

✖Joints Reluctance refers to the resistance to magnetic flux at the interface of two magnetic materials. It influences the flow of magnetic lines and affects the efficiency of magnetic circuits.ⓘ Reluctance of Joints [R_j]

⎘ Copy

👎

Formula

✖

Reluctance of Joints

Formula

`"R"_{"j"} = "m"*"R"-"R"_{"y"}`

Example

`"2.035AT/Wb"="1.35"*"8.1AT/Wb"-"8.9AT/Wb"`

Calculator

LaTeX

Reset

👍

Download Electronics and Instrumentation Formula PDF PDF Image

Reluctance of Joints Solution

STEP 0: Pre-Calculation Summary

Formula Used

Joints Reluctance = Specimen Extension Factor*Magnetic Circuit Reluctance-Yokes Reluctance
R_j = m*R-R_y
This formula uses 4 Variables

Variables Used

Joints Reluctance - (Measured in Ampere-Turn per Weber) - Joints Reluctance refers to the resistance to magnetic flux at the interface of two magnetic materials. It influences the flow of magnetic lines and affects the efficiency of magnetic circuits.
Specimen Extension Factor - Specimen Extension Factor is a dimensionless factor that quantifies the relative contribution of the joints and yokes to the overall reluctance of the magnetic circuit.
Magnetic Circuit Reluctance - (Measured in Ampere-Turn per Weber) - Magnetic Circuit Reluctance is the measure of opposition to the flow of magnetic flux in a material, determined by its geometry and magnetic properties.
Yokes Reluctance - (Measured in Ampere-Turn per Weber) - Yokes Reluctance refers to the reluctance of the yoke material or the portion of the magnetic circuit that includes the yoke.

STEP 1: Convert Input(s) to Base Unit

Specimen Extension Factor: 1.35 --> No Conversion Required
Magnetic Circuit Reluctance: 8.1 Ampere-Turn per Weber --> 8.1 Ampere-Turn per Weber No Conversion Required
Yokes Reluctance: 8.9 Ampere-Turn per Weber --> 8.9 Ampere-Turn per Weber No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

R_j = m*R-R_y --> 1.35*8.1-8.9

Evaluating ... ...

R_j = 2.035

STEP 3: Convert Result to Output's Unit

2.035 Ampere-Turn per Weber --> No Conversion Required

FINAL ANSWER

2.035 Ampere-Turn per Weber <-- Joints Reluctance

(Calculation completed in 00.004 seconds)

You are here -

Home » Engineering » Electronics and Instrumentation » Measurement of Magnetic Parameters » Magnetic Instruments » Reluctance of Joints

Credits

Created by Shobhit Dimri

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat

Shobhit Dimri has created this Calculator and 900+ more calculators!

Verified by Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

Urvi Rathod has verified this Calculator and 1900+ more calculators!

< 18 Magnetic Instruments Calculators

Hysteresis Coefficient

Go Hysteresis Coefficient = Hysteresis Loss per Unit Volume/(Frequency*Maximum Flux Density^Steinmetz Coefficient)

Number of Turns in Solenoid

Go Number of Coil Turn = (Solenoid Magnetic Field*Solenoid Length)/(Electric Current*[Permeability-vacuum])

Magnetic Field of Solenoid

Go Solenoid Magnetic Field = ([Permeability-vacuum]*Number of Coil Turn*Electric Current)/Solenoid Length

Thickness of Strip

Go Strip Thickness = Maximum Flux Density*(Hall Coefficient*Electric Current)/(Output Voltage)

Hall Coefficient

Go Hall Coefficient = (Output Voltage*Strip Thickness)/(Electric Current*Maximum Flux Density)

Specimen Extension Factor

Go Specimen Extension Factor = (Joints Reluctance+Yokes Reluctance)/Magnetic Circuit Reluctance

Reluctance of Yoke's

Go Yokes Reluctance = Specimen Extension Factor*Magnetic Circuit Reluctance-Joints Reluctance

Reluctance of Joints

Go Joints Reluctance = Specimen Extension Factor*Magnetic Circuit Reluctance-Yokes Reluctance

Number of turns per unit length of magnetic coil

Go Number of Turns per Unit Coil Length = Half Length Apparent Magnetic Force/Half Length Coil Current

Apparent Magnetic Force at length l

Go Full Length Apparent Magnetic Force = Full Length Coil Current*Number of Turns per Unit Coil Length

True Magnetizing Force

Go True Magnetism Force = 2*Full Length Apparent Magnetic Force-Half Length Apparent Magnetic Force

Actual length of Specimen

Go Specimen Actual Length = Specimen Extension/Magnetostriction Constant

Extention of Specimen

Go Specimen Extension = Magnetostriction Constant*Specimen Actual Length

Hysteresis loss per unit volume

Go Hysteresis Loss per Unit Volume = Hysteresis Loop Area*Frequency

Area of hysteresis loop

Go Hysteresis Loop Area = Hysteresis Loss per Unit Volume/Frequency

Reluctance of Magnetic Circuit

Go Magnetic Circuit Reluctance = Magnetomotive Force/Magnetic Flux

Magneto Motive Force(MMF)

Go Magnetomotive Force = Magnetic Flux*Magnetic Circuit Reluctance

Area of Cross-section of Specimen

Go Specimen Cross Section Area = Magnetic Flux/Flux Density

Reluctance of Joints Formula

Joints Reluctance = Specimen Extension Factor*Magnetic Circuit Reluctance-Yokes Reluctance
R_j = m*R-R_y

What are magnetic field lines?

Magnetic field lines: It is defined as the path along which the unit North pole (imaginary) tends to move in a magnetic field if free to do so.

How to Calculate Reluctance of Joints?

Reluctance of Joints calculator uses Joints Reluctance = Specimen Extension Factor*Magnetic Circuit Reluctance-Yokes Reluctance to calculate the Joints Reluctance, The Reluctance of Joints formula is defined as the multi-degree-of-freedom spherical driving joint with direct bearing driven by spherical motor owns high mechanical integrity. Joints Reluctance is denoted by R_j symbol.

How to calculate Reluctance of Joints using this online calculator? To use this online calculator for Reluctance of Joints, enter Specimen Extension Factor (m), Magnetic Circuit Reluctance (R) & Yokes Reluctance (R_y) and hit the calculate button. Here is how the Reluctance of Joints calculation can be explained with given input values -> 2.035 = 1.35*8.1-8.9.

FAQ

What is Reluctance of Joints?

The Reluctance of Joints formula is defined as the multi-degree-of-freedom spherical driving joint with direct bearing driven by spherical motor owns high mechanical integrity and is represented as R_j = m*R-R_y or Joints Reluctance = Specimen Extension Factor*Magnetic Circuit Reluctance-Yokes Reluctance. Specimen Extension Factor is a dimensionless factor that quantifies the relative contribution of the joints and yokes to the overall reluctance of the magnetic circuit, Magnetic Circuit Reluctance is the measure of opposition to the flow of magnetic flux in a material, determined by its geometry and magnetic properties & Yokes Reluctance refers to the reluctance of the yoke material or the portion of the magnetic circuit that includes the yoke.

How to calculate Reluctance of Joints?

The Reluctance of Joints formula is defined as the multi-degree-of-freedom spherical driving joint with direct bearing driven by spherical motor owns high mechanical integrity is calculated using Joints Reluctance = Specimen Extension Factor*Magnetic Circuit Reluctance-Yokes Reluctance. To calculate Reluctance of Joints, you need Specimen Extension Factor (m), Magnetic Circuit Reluctance (R) & Yokes Reluctance (R_y). With our tool, you need to enter the respective value for Specimen Extension Factor, Magnetic Circuit Reluctance & Yokes Reluctance 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