Maximum Flux Density given Primary Winding Solution

STEP 0: Pre-Calculation Summary
Formula Used
Maximum Flux Density = EMF Induced in Primary/(4.44*Area of Core*Supply Frequency*Number of Turns in Primary)
Bmax = E1/(4.44*Acore*f*N1)
This formula uses 5 Variables
Variables Used
Maximum Flux Density - (Measured in Tesla) - Maximum Flux Density is defined as the number of lines of force passing through a unit area of material.
EMF Induced in Primary - (Measured in Volt) - EMF Induced in Primary Winding is the production of voltage in a coil because of the change in magnetic flux through a coil.
Area of Core - (Measured in Square Meter) - Area of Core is defined as the space occupied by the core of a transformer in 2 dimensional space.
Supply Frequency - (Measured in Hertz) - Supply Frequency means Induction motors are designed for a specific voltage per frequency ratio (V/Hz). The voltage is called the supply voltage and the frequency is called the 'Supply Frequency'.
Number of Turns in Primary - The Number of Turns in Primary Winding is the number of turns primary winding is the winding of a transformer.
STEP 1: Convert Input(s) to Base Unit
EMF Induced in Primary: 13.2 Volt --> 13.2 Volt No Conversion Required
Area of Core: 2500 Square Centimeter --> 0.25 Square Meter (Check conversion ​here)
Supply Frequency: 500 Hertz --> 500 Hertz No Conversion Required
Number of Turns in Primary: 20 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Bmax = E1/(4.44*Acore*f*N1) --> 13.2/(4.44*0.25*500*20)
Evaluating ... ...
Bmax = 0.00118918918918919
STEP 3: Convert Result to Output's Unit
0.00118918918918919 Tesla --> No Conversion Required
FINAL ANSWER
0.00118918918918919 0.001189 Tesla <-- Maximum Flux Density
(Calculation completed in 00.004 seconds)

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Magnetic Flux Calculators

Maximum Flux Density using Secondary Winding
​ LaTeX ​ Go Maximum Flux Density = EMF Induced in Secondary/(4.44*Area of Core*Supply Frequency*Number of Turns in Secondary)
Maximum Flux Density given Primary Winding
​ LaTeX ​ Go Maximum Flux Density = EMF Induced in Primary/(4.44*Area of Core*Supply Frequency*Number of Turns in Primary)
Maximum Flux in Core using Secondary Winding
​ LaTeX ​ Go Maximum Core Flux = EMF Induced in Secondary/(4.44*Supply Frequency*Number of Turns in Secondary)
Maximum Flux in Core using Primary Winding
​ LaTeX ​ Go Maximum Core Flux = EMF Induced in Primary/(4.44*Supply Frequency*Number of Turns in Primary)

Maximum Flux Density given Primary Winding Formula

​LaTeX ​Go
Maximum Flux Density = EMF Induced in Primary/(4.44*Area of Core*Supply Frequency*Number of Turns in Primary)
Bmax = E1/(4.44*Acore*f*N1)

What is induced EMF?

Alternating flux gets linked with the secondary winding, and because of the phenomenon of mutual induction, an emf gets induced in the secondary winding. The magnitude of this induced emf can be found by using the following EMF equation of the transformer.

How to Calculate Maximum Flux Density given Primary Winding?

Maximum Flux Density given Primary Winding calculator uses Maximum Flux Density = EMF Induced in Primary/(4.44*Area of Core*Supply Frequency*Number of Turns in Primary) to calculate the Maximum Flux Density, The Maximum Flux Density given Primary Winding formula is defined as the measure of the number of magnetic lines of force per unit of cross-sectional area. The magnitude of this induced emf can be found by using the following EMF equation of the transformer. Maximum Flux Density is denoted by Bmax symbol.

How to calculate Maximum Flux Density given Primary Winding using this online calculator? To use this online calculator for Maximum Flux Density given Primary Winding, enter EMF Induced in Primary (E1), Area of Core (Acore), Supply Frequency (f) & Number of Turns in Primary (N1) and hit the calculate button. Here is how the Maximum Flux Density given Primary Winding calculation can be explained with given input values -> 0.001189 = 13.2/(4.44*0.25*500*20).

FAQ

What is Maximum Flux Density given Primary Winding?
The Maximum Flux Density given Primary Winding formula is defined as the measure of the number of magnetic lines of force per unit of cross-sectional area. The magnitude of this induced emf can be found by using the following EMF equation of the transformer and is represented as Bmax = E1/(4.44*Acore*f*N1) or Maximum Flux Density = EMF Induced in Primary/(4.44*Area of Core*Supply Frequency*Number of Turns in Primary). EMF Induced in Primary Winding is the production of voltage in a coil because of the change in magnetic flux through a coil, Area of Core is defined as the space occupied by the core of a transformer in 2 dimensional space, Supply Frequency means Induction motors are designed for a specific voltage per frequency ratio (V/Hz). The voltage is called the supply voltage and the frequency is called the 'Supply Frequency' & The Number of Turns in Primary Winding is the number of turns primary winding is the winding of a transformer.
How to calculate Maximum Flux Density given Primary Winding?
The Maximum Flux Density given Primary Winding formula is defined as the measure of the number of magnetic lines of force per unit of cross-sectional area. The magnitude of this induced emf can be found by using the following EMF equation of the transformer is calculated using Maximum Flux Density = EMF Induced in Primary/(4.44*Area of Core*Supply Frequency*Number of Turns in Primary). To calculate Maximum Flux Density given Primary Winding, you need EMF Induced in Primary (E1), Area of Core (Acore), Supply Frequency (f) & Number of Turns in Primary (N1). With our tool, you need to enter the respective value for EMF Induced in Primary, Area of Core, Supply Frequency & Number of Turns in Primary 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 Maximum Flux Density?
In this formula, Maximum Flux Density uses EMF Induced in Primary, Area of Core, Supply Frequency & Number of Turns in Primary. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Maximum Flux Density = EMF Induced in Secondary/(4.44*Area of Core*Supply Frequency*Number of Turns in Secondary)
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