Magnetic Loading Calculator

✖The number of poles determines the synchronous speed and operating characteristics of the machine.ⓘ Number of Poles [n]			+10% -10%
✖Flux per pole is defined as the magnetic flux present at each pole of any electrical machine.ⓘ Flux per Pole [Φ]			+10% -10%

✖Magnetic loading is an important aspect of electrical machine design, particularly in the context of transformers, motors, and generators.ⓘ Magnetic Loading [B]

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Formula

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Magnetic Loading

Formula

`"B" = "n"*"Φ"`

Example

`"0.216Wb"="4"*"0.054Wb"`

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Magnetic Loading Solution

STEP 0: Pre-Calculation Summary

Formula Used

Magnetic Loading = Number of Poles*Flux per Pole
B = n*Φ
This formula uses 3 Variables

Variables Used

Magnetic Loading - (Measured in Weber) - Magnetic loading is an important aspect of electrical machine design, particularly in the context of transformers, motors, and generators.
Number of Poles - The number of poles determines the synchronous speed and operating characteristics of the machine.
Flux per Pole - (Measured in Weber) - Flux per pole is defined as the magnetic flux present at each pole of any electrical machine.

STEP 1: Convert Input(s) to Base Unit

Number of Poles: 4 --> No Conversion Required
Flux per Pole: 0.054 Weber --> 0.054 Weber No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

B = n*Φ --> 4*0.054

Evaluating ... ...

B = 0.216

STEP 3: Convert Result to Output's Unit

0.216 Weber --> No Conversion Required

FINAL ANSWER

0.216 Weber <-- Magnetic Loading

(Calculation completed in 00.004 seconds)

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Credits

Created by ANKIT PAUL

BANGALORE INSTITUTE OF TECHNOLOGY (BIT), BANGALORE

ANKIT PAUL has created this Calculator and 9 more calculators!

Verified by swapanshil kumar

ramgarh engineering college (REC), ramgarh

swapanshil kumar has verified this Calculator and 1 more calculators!

< 8 Magnetic Parameters Calculators

Specific Magnetic Loading

Go Specific Magnetic Loading = (Number of Poles*Flux per Pole)/(pi*Armature Diameter*Armature Core Length)

Specific Magnetic Loading using Output Coefficient AC

Go Specific Magnetic Loading = (Output Coefficient AC*1000)/(11*Specific Electric Loading*Winding Factor)

Flux per Pole using Pole Pitch

Go Flux per Pole = Specific Magnetic Loading*Pole Pitch*Limiting Value of Core Length

Pole Pitch

Go Pole Pitch = (pi*Armature Diameter)/Number of Poles

MMF of Damper Winding

Go MMF of Damper Winding = 0.143*Specific Electric Loading*Pole Pitch

Full Load Field MMF

Go Full Load Field MMF = Field Current*Turns per Coil

Magnetic Loading

Go Magnetic Loading = Number of Poles*Flux per Pole

Pole Arc

Go Pole Arc = Number of Damper Bar*0.8*Slot Pitch

Magnetic Loading Formula

Magnetic Loading = Number of Poles*Flux per Pole
B = n*Φ

What are the factors that decide the choice of specific magnetic loading?

There are 3 factors are used to determine the specific magnetic loading. They are :
1. maximum flux density in iron parts of machine
2. magnetizing current
3. core losses.

What is electric loading in motor?

Electric motor load means the current drawn by an electric motor. It depends upon the load on the shaft of the motor. For a given electric motor, it can estimated using input power, amperage or speed of the motor. Most electric motors are designed to run at 50 % to 100 % of rated load.

How to Calculate Magnetic Loading?

Magnetic Loading calculator uses Magnetic Loading = Number of Poles*Flux per Pole to calculate the Magnetic Loading, The Magnetic Loading formula is defined as the product of number of poles and flux per pole .It represents the total flux being generated in any rotating electrical machine. The magnetic loading is an important parameter in electrical machine design as it affects various aspects of the machine's performance, such as torque production, power output, and efficiency. It helps engineers evaluate the magnetic characteristics and design considerations for the machine, ensuring that it operates within safe and efficient magnetic loading limits. Magnetic Loading is denoted by B symbol.

How to calculate Magnetic Loading using this online calculator? To use this online calculator for Magnetic Loading, enter Number of Poles (n) & Flux per Pole (Φ) and hit the calculate button. Here is how the Magnetic Loading calculation can be explained with given input values -> 0.216 = 4*0.054.

FAQ

What is Magnetic Loading?

The Magnetic Loading formula is defined as the product of number of poles and flux per pole .It represents the total flux being generated in any rotating electrical machine. The magnetic loading is an important parameter in electrical machine design as it affects various aspects of the machine's performance, such as torque production, power output, and efficiency. It helps engineers evaluate the magnetic characteristics and design considerations for the machine, ensuring that it operates within safe and efficient magnetic loading limits and is represented as B = n*Φ or Magnetic Loading = Number of Poles*Flux per Pole. The number of poles determines the synchronous speed and operating characteristics of the machine & Flux per pole is defined as the magnetic flux present at each pole of any electrical machine.

How to calculate Magnetic Loading?

The Magnetic Loading formula is defined as the product of number of poles and flux per pole .It represents the total flux being generated in any rotating electrical machine. The magnetic loading is an important parameter in electrical machine design as it affects various aspects of the machine's performance, such as torque production, power output, and efficiency. It helps engineers evaluate the magnetic characteristics and design considerations for the machine, ensuring that it operates within safe and efficient magnetic loading limits is calculated using Magnetic Loading = Number of Poles*Flux per Pole. To calculate Magnetic Loading, you need Number of Poles (n) & Flux per Pole (Φ). With our tool, you need to enter the respective value for Number of Poles & Flux per Pole 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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