Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
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Anirudh Singh
National Institute of Technology (NIT), Jamshedpur
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11 Other formulas that you can solve using the same Inputs

Speed of an object in Circular Motion
Speed of object moving in circle=2*pi*Radius*frequency GO
Diagonal of a Rectangle when breadth and area are given
Diagonal=sqrt(((Area)^2/(Breadth)^2)+(Breadth)^2) GO
Diagonal of a Rectangle when length and area are given
Diagonal=sqrt(((Area)^2/(Length)^2)+(Length)^2) GO
Side of a Kite when other side and area are given
Side A=(Area*cosec(Angle Between Sides))/Side B GO
Amplitude
A=Total Distance Traveled/frequency GO
Buoyant Force
Buoyant Force=Pressure*Area GO
Perimeter of a square when area is given
Perimeter=4*sqrt(Area) GO
Diagonal of a Square when area is given
Diagonal=sqrt(2*Area) GO
Length of rectangle when area and breadth are given
Length=Area/Breadth GO
Pressure when force and area are given
Pressure=Force/Area GO
Stress
Stress=Force/Area GO

1 Other formulas that calculate the same Output

Maximum Flux Density When Primary Winding Is Given
Maximum flux density=EMF Induced In The Primary Winding/(4.44*Area*frequency*Number of Turns in Primary winding) GO

Maximum Flux Density When Secondary Winding Is Given Formula

Maximum flux density=EMF Induced In The Secondary Winding/(4.44*frequency*Number of Turns in Secondary winding*Area)
B=E2/(4.44*f*N2*A)
More formulas
Frequency When EMF Induced In Secondary Winding is Given GO
Number Of Turns In The Primary winding GO
Frequency When EMF Induced In Primary Winding is Given GO
Number Of Turns In The Secondary Winding GO
Maximum Flux In Core When Primary Winding Is Given GO
Maximum Flux In Core When Secondary Winding Is Given GO
Maximum Flux Density When Primary Winding Is Given GO
Area Of Core When EMF Induced In Secondary Winding Is Given GO
Area Of Core When EMF Induced In Primary Winding Is Given GO
Voltage Transformation Ratio When Primary And Secondary Voltage Is Given GO
Voltage Transformation Ratio When Primary And Secondary Current Is Given GO
Voltage Transformation Ratio When Primary And Secondary Induced Voltage Is Given GO
Voltage Transformation Ratio When Primary And Secondary Number Of Turns Is Given GO
Number Of Turns In The Primary Winding When Voltage Transformation Ratio Is Given GO
Number Of Turns In The Secondary Winding When Voltage Transformation Ratio Is Given GO
Voltage Transformation Ratio When Secondary Leakage Reactance Is Given GO
Voltage Transformation Ratio When Primary Leakage Reactance Is Given GO
Voltage Transformation Ratio When Primary Leakage Resistance Is Given GO
Voltage Transformation Ratio When Secondary Leakage Resistance Is Given GO
Voltage Transformation Ratio When Equivalent Resistance From Primary Side Is Given GO
Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given GO
Voltage Transformation Ratio When Equivalent Reactance From Secondary Side Is Given GO
Voltage Transformation Ratio When Equivalent Reactance From Primary Side Is Given GO
Equivalent Reactance From Primary Side When Equivalent Impedance From Primary Side Is Given GO
Equivalent Reactance From Secondary Side When Equivalent Impedance From Secondary Side Is Given GO

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 When Secondary Winding Is Given?

Maximum Flux Density When Secondary Winding Is Given calculator uses Maximum flux density=EMF Induced In The Secondary Winding/(4.44*frequency*Number of Turns in Secondary winding*Area) to calculate the Maximum flux density, The Maximum Flux Density When Secondary Winding Is Given 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 and is denoted by B symbol.

How to calculate Maximum Flux Density When Secondary Winding Is Given using this online calculator? To use this online calculator for Maximum Flux Density When Secondary Winding Is Given, enter EMF Induced In The Secondary Winding (E2), frequency (f), Number of Turns in Secondary winding (N2) and Area (A) and hit the calculate button. Here is how the Maximum Flux Density When Secondary Winding Is Given calculation can be explained with given input values -> 8.008E-6 = 8/(4.44*90*50*50).

FAQ

What is Maximum Flux Density When Secondary Winding Is Given?
The Maximum Flux Density When Secondary Winding Is Given 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 B=E2/(4.44*f*N2*A) or Maximum flux density=EMF Induced In The Secondary Winding/(4.44*frequency*Number of Turns in Secondary winding*Area). EMF induced in the secondary winding is the production of voltage in a coil because of the change in magnetic flux through a coil, Frequency refers to the number of occurrences of a periodic event per time and is measured in cycles/second, The number of Turns in Secondary winding is the number of turns secondary winding has and The area is the amount of two-dimensional space taken up by an object.
How to calculate Maximum Flux Density When Secondary Winding Is Given?
The Maximum Flux Density When Secondary Winding Is Given 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 The Secondary Winding/(4.44*frequency*Number of Turns in Secondary winding*Area). To calculate Maximum Flux Density When Secondary Winding Is Given, you need EMF Induced In The Secondary Winding (E2), frequency (f), Number of Turns in Secondary winding (N2) and Area (A). With our tool, you need to enter the respective value for EMF Induced In The Secondary Winding, frequency, Number of Turns in Secondary winding and Area 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 The Secondary Winding, frequency, Number of Turns in Secondary winding and Area. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Maximum flux density=EMF Induced In The Primary Winding/(4.44*Area*frequency*Number of Turns in Primary winding)
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