HCF of two numbers

Flux per Pole using Magnetic Loading Calculator

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✖Magnetic loading is an important aspect of electrical machine design, particularly in the context of transformers, motors, and generators.ⓘ Magnetic Loading [B]			+10% -10%
✖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 using Magnetic Loading [Φ]

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Flux per Pole using Magnetic Loading Solution

STEP 0: Pre-Calculation Summary

Formula Used

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

Variables Used

Flux per Pole - (Measured in Weber) - Flux per pole is defined as the magnetic flux present at each pole of any electrical machine.
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.

STEP 1: Convert Input(s) to Base Unit

Magnetic Loading: 0.216 Weber --> 0.216 Weber No Conversion Required
Number of Poles: 4 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Φ = B/n --> 0.216/4

Evaluating ... ...

Φ = 0.054

STEP 3: Convert Result to Output's Unit

0.054 Weber --> No Conversion Required

FINAL ANSWER

0.054 Weber <-- Flux per Pole

(Calculation completed in 00.004 seconds)

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< DC Machines Calculators

Peripheral Speed of Armature using Limiting Value of Core Length

LaTeX Go Peripheral Speed of Armature = (7.5)/(Specific Magnetic Loading*Limiting Value of Core Length*Turns per Coil*Number of Coils between Adjacent Segments)

Average Gap Density using Limiting Value of Core Length

LaTeX Go Specific Magnetic Loading = (7.5)/(Limiting Value of Core Length*Peripheral Speed of Armature*Turns per Coil*Number of Coils between Adjacent Segments)

Limiting Value of Core Length

LaTeX Go Limiting Value of Core Length = (7.5)/(Specific Magnetic Loading*Peripheral Speed of Armature*Turns per Coil*Number of Coils between Adjacent Segments)

Number of Poles using Magnetic Loading

LaTeX Go Number of Poles = Magnetic Loading/Flux per Pole

Flux per Pole using Magnetic Loading Formula

LaTeX Go

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

What are the effects of armature reaction in a dc machine?

1. Armature reaction weakens the main flux. In case of a dc generator, weakening of the main flux reduces the generated voltage.
2. Armature reaction distorts the main flux, hence the position of M.N.A. gets shifted (M.N.A. is perpendicular to the flux lines of main field flux).

What is back emf in dc motor?

Back EMF is the system in the coil of an electric motor that opposes the current flowing through the coil, when the armature rotates. When the speed varies, the winding characteristics may fluctuate, resulting in variation of back EMF.

How to Calculate Flux per Pole using Magnetic Loading?

Flux per Pole using Magnetic Loading calculator uses Flux per Pole = Magnetic Loading/Number of Poles to calculate the Flux per Pole, Flux per Pole using Magnetic Loading formula is defined as the ratio magnetic loading to the number of poles present in any DC machine. Flux per Pole is denoted by Φ symbol.

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

FAQ

What is Flux per Pole using Magnetic Loading?

Flux per Pole using Magnetic Loading formula is defined as the ratio magnetic loading to the number of poles present in any DC machine and is represented as Φ = B/n or Flux per Pole = Magnetic Loading/Number of Poles. Magnetic loading is an important aspect of electrical machine design, particularly in the context of transformers, motors, and generators & The number of poles determines the synchronous speed and operating characteristics of the machine.

How to calculate Flux per Pole using Magnetic Loading?

Flux per Pole using Magnetic Loading formula is defined as the ratio magnetic loading to the number of poles present in any DC machine is calculated using Flux per Pole = Magnetic Loading/Number of Poles. To calculate Flux per Pole using Magnetic Loading, you need Magnetic Loading (B) & Number of Poles (n). With our tool, you need to enter the respective value for Magnetic Loading & Number of Poles and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Flux per Pole?

In this formula, Flux per Pole uses Magnetic Loading & Number of Poles. We can use 2 other way(s) to calculate the same, which is/are as follows -

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

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