Armature Flux per pole Solution

STEP 0: Pre-Calculation Summary
Formula Used
Armature Flux per Pole Op = Total Flux per Pole/Leakage Factor
θaop = Θflux/φt
This formula uses 3 Variables
Variables Used
Armature Flux per Pole Op - Armature Flux per Pole Op where armature flux is produced by the current induced in the armature conductors.
Total Flux per Pole - The Total Flux per Pole is defined as the flux density for a given surface area.
Leakage Factor - Leakage Factor is defined as the magnetic flux which does not follow the particularly intended path in a magnetic circuit.
STEP 1: Convert Input(s) to Base Unit
Total Flux per Pole: 3.5 --> No Conversion Required
Leakage Factor: 8.2 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
θaop = Θflux/φt --> 3.5/8.2
Evaluating ... ...
θaop = 0.426829268292683
STEP 3: Convert Result to Output's Unit
0.426829268292683 --> No Conversion Required
FINAL ANSWER
0.426829268292683 0.426829 <-- Armature Flux per Pole Op
(Calculation completed in 00.020 seconds)

Credits

Created by Shobhit Dimri
Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
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13 Magnetic Flux Calculators

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Go Magnetic Field M F Op = ((Number of Turns of Coil*Electric Current Magnetic Field)*cos(Theta M F))/Length of Solenoid
Strength of Magnetic Field
Go Magnetic Field M F = EMF Generated in Former/(2*Length of Former*Breadth of Former Magnetic Field*Angular Speed of Former)
Flux Density of Field Traverse to Strip
Go Maximum Flux Density Op = (Output voltage*Thickness)/(Hall Coefficient*Electric Current)
Maximum Flux Density
Go Magnetic flux Op = Hysteresis loss per unit volume/(Frequency Magnetic Flux*Hysteresis Coefficient)
Magnetic Moment in Circuit
Go Magnetic Moment Op = (Reluctance of Joints+Reluctance of Yokes)/Reluctance of Magnetic Circuit
Flux Linkage of Search Coil
Go Flux Linkage Of Search Coil Op = Electric Current Magnetic Flux*Mutual Inductance
Flux linkages of Secondary Coil
Go Flux linkages of Secondary Coil = Magnetic Field M F*Area of Secondary Coil
Flux in Magnetic Circuit
Go Magnetic flux (Φ) Op1 = Magnetomotive Force/Reluctance of Magnetic Circuit
Magneto Motive Force(MMF)
Go Magnetomotive Force Op = Magnetic Flux*Reluctance of Magnetic Circuit
Flux Density at Center of Solenoid
Go Maximum Flux Density = Magnetic Permeability MF*Magnetic Field M F
Armature Flux per pole
Go Armature Flux per Pole Op = Total Flux per Pole/Leakage Factor
Total Flux per pole
Go Total Flux per Pole Op = Armature Flux per Pole*Leakage Factor
Flux Charge
Go Flux charge Op = Throw of Galvanometer/Ballistic Sensitivity

Armature Flux per pole Formula

Armature Flux per Pole Op = Total Flux per Pole/Leakage Factor
θaop = Θflux/φt

Why are Magnetic field lines are closed curves?

Magnetic field lines are closed continuous curves. They diverge from the north pole of a bar magnet and converge its south pole. Inside the magnet, they move from the south pole to the north pole.

How to Calculate Armature Flux per pole?

Armature Flux per pole calculator uses Armature Flux per Pole Op = Total Flux per Pole/Leakage Factor to calculate the Armature Flux per Pole Op, The Armature Flux per pole formula is defined as the armature flux is produced by the current induced in the armature conductors while the field pole flux is induced because of the main field poles. These two flux combines and gives the resultant flux ΦR as shown in the figure above. When the field flux enters into the armature, it may get distorted. Armature Flux per Pole Op is denoted by θaop symbol.

How to calculate Armature Flux per pole using this online calculator? To use this online calculator for Armature Flux per pole, enter Total Flux per Pole flux) & Leakage Factor (φt) and hit the calculate button. Here is how the Armature Flux per pole calculation can be explained with given input values -> 0.426829 = 3.5/8.2.

FAQ

What is Armature Flux per pole?
The Armature Flux per pole formula is defined as the armature flux is produced by the current induced in the armature conductors while the field pole flux is induced because of the main field poles. These two flux combines and gives the resultant flux ΦR as shown in the figure above. When the field flux enters into the armature, it may get distorted and is represented as θaop = Θflux/φt or Armature Flux per Pole Op = Total Flux per Pole/Leakage Factor. The Total Flux per Pole is defined as the flux density for a given surface area & Leakage Factor is defined as the magnetic flux which does not follow the particularly intended path in a magnetic circuit.
How to calculate Armature Flux per pole?
The Armature Flux per pole formula is defined as the armature flux is produced by the current induced in the armature conductors while the field pole flux is induced because of the main field poles. These two flux combines and gives the resultant flux ΦR as shown in the figure above. When the field flux enters into the armature, it may get distorted is calculated using Armature Flux per Pole Op = Total Flux per Pole/Leakage Factor. To calculate Armature Flux per pole, you need Total Flux per Pole flux) & Leakage Factor (φt). With our tool, you need to enter the respective value for Total Flux per Pole & Leakage Factor 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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