Average Hysteresis Power Loss Solution

STEP 0: Pre-Calculation Summary
Formula Used
Hysteresis Loss = Hysteresis Constant*Frequency*(Magnetic Flux Density)^Steinmetz Coefficient
Phystersis = Kh*fmin*(B)^n
This formula uses 5 Variables
Variables Used
Hysteresis Loss - (Measured in Watt) - Hysteresis loss is defined as the energy entrapped in magnetic materials exposed to a magnetic field in the form of residual magnetization.
Hysteresis Constant - (Measured in Joule per Cubic Meter) - Hysteresis constant is defined as a constant that represents hysteresis loss when a magnetic material is operating in the Rayleigh region.
Frequency - (Measured in Hertz) - Frequency is defined as the frequency which is needed to avoid the saturation.
Magnetic Flux Density - (Measured in Tesla) - Magnetic Flux Density is amount of magnetic flux through unit area taken perpendicular to direction of magnetic flux.
Steinmetz Coefficient - Steinmetz Coefficient is defined as a constant which is used in calculating the hysteresis losses. Its value varies from material to material.
STEP 1: Convert Input(s) to Base Unit
Hysteresis Constant: 2.13 Joule per Cubic Meter --> 2.13 Joule per Cubic Meter No Conversion Required
Frequency: 39 Hertz --> 39 Hertz No Conversion Required
Magnetic Flux Density: 0.019 Tesla --> 0.019 Tesla No Conversion Required
Steinmetz Coefficient: 1.6 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Phystersis = Kh*fmin*(B)^n --> 2.13*39*(0.019)^1.6
Evaluating ... ...
Phystersis = 0.14636929195618
STEP 3: Convert Result to Output's Unit
0.14636929195618 Watt --> No Conversion Required
FINAL ANSWER
0.14636929195618 Watt <-- Hysteresis Loss
(Calculation completed in 00.000 seconds)

Credits

Created by Parminder Singh
Chandigarh University (CU), Punjab
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GURU TEGH BAHADUR INSTITUTE OF TECHNOLOGY (GTBIT), NEW DELHI
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23 Basics of Magnetism Calculators

Mutual Inductance
Go Mutual Inductance = [Permeability-vacuum]*Relative Permeability*Area of Coil*Number of Conductors*Secondary Turns of Coil/Mean Length
Magnetic Potential
Go Magnetic Potential = (Magnetic Moment)/(4*pi*[Permeability-vacuum]*Relative Permeability*Pole Distance)
Flux Density in Toroidal Core
Go Magnetic Flux Density = (Relative Permeability*Secondary Turns of Coil*Current)/(pi*Inner Diameter)
Forces on Charges Moving in Magnetic Fields
Go Force = [Charge-e]*Charge Velocity*Magnetic Flux Density*(sin(Angle between Vectors))
Forces on Current Carrying Wires
Go Force = Magnetic Flux Density*Current*Length of Conductor*sin(Angle between Vectors)
Average Hysteresis Power Loss
Go Hysteresis Loss = Hysteresis Constant*Frequency*(Magnetic Flux Density)^Steinmetz Coefficient
Minimum Frequency to Avoid Saturation
Go Frequency = Peak Voltage/(2*pi*Secondary Turns of Coil*Area of Coil)
Reluctance
Go Reluctance = Mean Length/(Magnetic Permeability of a Medium*Area of Coil)
Voltages Induced in Field Cutting Conductors
Go Voltage = Magnetic Flux Density*Length of Conductor*Charge Velocity
Percent Voltage Regulation
Go Percentage Regulation = ((No Load Voltage-Voltage)/Voltage)*100
Self Inductance
Go Self Inductance = (Number of Conductors*Magnetic Flux)/Current
Magnetic Flux Density using Magnetic Field Intensity
Go Magnetic Flux Density = Magnetic Permeability of a Medium*Magnetic Field Intensity
Magnetic Susceptibility
Go Magnetic Susceptibility = Intensity of Magnetization/Magnetic Field Intensity
Energy Stored in Magnetic Field
Go Energy = Magnetic Flux Density/(Magnetic Permeability of a Medium^2)
Intensity of Magnetization
Go Intensity of Magnetization = Magnetic Moment/Volume
Magnetic Flux using Flux Density
Go Magnetic Flux = Magnetic Flux Density*Area of Coil
Magnetic Flux Density
Go Magnetic Flux Density = Magnetic Flux/Area of Coil
Magnetic Field Strength
Go Magnetic Field Strength = Force/Magnetic Moment
Magnetic Flux in Core
Go Magnetic Flux = Magnetomotive Force/Reluctance
Area of Ring
Go Area of Coil = (pi*Inner Diameter^2)/4
Mean Diameter
Go Mean Diameter = Mean Length/pi
Mean Length
Go Mean Length = pi*Mean Diameter
Permeance
Go Magnetic Permeance = 1/Reluctance

Average Hysteresis Power Loss Formula

Hysteresis Loss = Hysteresis Constant*Frequency*(Magnetic Flux Density)^Steinmetz Coefficient
Phystersis = Kh*fmin*(B)^n

Hysteresis Loss and Eddy Current Loss: What's the Difference?

Hysteresis loss is caused by the magnetization and demagnetization of the core as current flows in the forward and reverse directions. As the magnetizing force (current) increases, the magnetic flux increases. But when the magnetizing force (current) is decreased, the magnetic flux doesn’t decrease at the same rate, but less gradually.
Eddy current losses are the result of Farady’s law, which states that, “Any change in the environment of a coil of wire will cause a voltage to be induced in the coil, regardless of how the magnetic change is produced.”

How to Calculate Average Hysteresis Power Loss?

Average Hysteresis Power Loss calculator uses Hysteresis Loss = Hysteresis Constant*Frequency*(Magnetic Flux Density)^Steinmetz Coefficient to calculate the Hysteresis Loss, The Average Hysteresis Power Loss formula is defined as the energy entrapped in magnetic materials exposed to a magnetic field in the form of residual magnetization. Hysteresis Loss is denoted by Phystersis symbol.

How to calculate Average Hysteresis Power Loss using this online calculator? To use this online calculator for Average Hysteresis Power Loss, enter Hysteresis Constant (Kh), Frequency (fmin), Magnetic Flux Density (B) & Steinmetz Coefficient (n) and hit the calculate button. Here is how the Average Hysteresis Power Loss calculation can be explained with given input values -> 0.146369 = 2.13*39*(0.019)^1.6.

FAQ

What is Average Hysteresis Power Loss?
The Average Hysteresis Power Loss formula is defined as the energy entrapped in magnetic materials exposed to a magnetic field in the form of residual magnetization and is represented as Phystersis = Kh*fmin*(B)^n or Hysteresis Loss = Hysteresis Constant*Frequency*(Magnetic Flux Density)^Steinmetz Coefficient. Hysteresis constant is defined as a constant that represents hysteresis loss when a magnetic material is operating in the Rayleigh region, Frequency is defined as the frequency which is needed to avoid the saturation, Magnetic Flux Density is amount of magnetic flux through unit area taken perpendicular to direction of magnetic flux & Steinmetz Coefficient is defined as a constant which is used in calculating the hysteresis losses. Its value varies from material to material.
How to calculate Average Hysteresis Power Loss?
The Average Hysteresis Power Loss formula is defined as the energy entrapped in magnetic materials exposed to a magnetic field in the form of residual magnetization is calculated using Hysteresis Loss = Hysteresis Constant*Frequency*(Magnetic Flux Density)^Steinmetz Coefficient. To calculate Average Hysteresis Power Loss, you need Hysteresis Constant (Kh), Frequency (fmin), Magnetic Flux Density (B) & Steinmetz Coefficient (n). With our tool, you need to enter the respective value for Hysteresis Constant, Frequency, Magnetic Flux Density & Steinmetz Coefficient 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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