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Magnetic Flux Solution

STEP 0: Pre-Calculation Summary
Formula Used
magnetic_flux = Magnetic Field*Length*Breadth*cos(θ)
ΦB = B*l*b*cos(θ)
This formula uses 1 Functions, 4 Variables
Functions Used
cos - Trigonometric cosine function, cos(Angle)
Variables Used
Magnetic Field - Magnetic fields are produced by electric currents, which can be macroscopic currents in wires, or microscopic currents associated with electrons in atomic orbits. (Measured in Tesla)
Length - Length is the measurement or extent of something from end to end. (Measured in Meter)
Breadth - Breadth is the measurement or extent of something from side to side. (Measured in Meter)
θ - θ is the angle between the magnetic field and normal to the surface. (Measured in Degree)
STEP 1: Convert Input(s) to Base Unit
Magnetic Field: 2.5 Tesla --> 2.5 Tesla No Conversion Required
Length: 3 Meter --> 3 Meter No Conversion Required
Breadth: 2 Meter --> 2 Meter No Conversion Required
θ: 45 Degree --> 0.785398163397301 Radian (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ΦB = B*l*b*cos(θ) --> 2.5*3*2*cos(0.785398163397301)
Evaluating ... ...
ΦB = 10.6066017177998
STEP 3: Convert Result to Output's Unit
10.6066017177998 Weber --> No Conversion Required
FINAL ANSWER
10.6066017177998 Weber <-- Magnetic Flux
(Calculation completed in 00.031 seconds)
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11 Other formulas that you can solve using the same Inputs

Surface Area of a Rectangular Prism
surface_area = 2*(Length*Width+Length*Height+Width*Height) Go
Magnetic Force
magnetic_force = Current Magnitude*Length of Rod*Magnetic Field*sin(θ) Go
Perimeter of a rectangle when diagonal and length are given
perimeter = 2*(Length+sqrt((Diagonal)^2-(Length)^2)) Go
Area of a Rectangle when breadth and diagonal are given
area = Breadth*(sqrt((Diagonal)^2-(Breadth)^2)) Go
Area of a Rectangle when length and diagonal are given
area = Length*(sqrt((Diagonal)^2-(Length)^2)) Go
Diagonal of a Rectangle when length and breadth are given
diagonal = sqrt(Length^2+Breadth^2) Go
Volume of a Rectangular Prism
volume = Width*Height*Length Go
Strain
strain = Change In Length/Length Go
Surface Tension
surface_tension = Force/Length Go
Perimeter of a rectangle when length and width are given
perimeter = 2*Length+2*Width Go
Area of a Rectangle when length and breadth are given
area = Length*Breadth Go

11 Other formulas that calculate the same Output

Magnetic Flux Of Series DC Motor Using Speed
magnetic_flux = (Voltage-(Armature Current*(Armature resistance-Shunt field resistance)))/(Constant Of The DC Machine*Motor Speed) Go
Magnetic flux Of Series DC Generator Using Kf
magnetic_flux = Induced voltage/(constant based on machine construction*Armature Current*Angular Speed) Go
Magnetic Flux Of Series DC Motor Using Kf
magnetic_flux = Induced voltage/(constant based on machine construction*Armature Current*Angular Speed) Go
Magnetic flux Of Series DC Generator Using Torque
magnetic_flux = Torque/(constant based on machine construction*Armature Current*Armature Current) Go
Magnetic Flux Of Series DC motor Using Torque
magnetic_flux = Torque/(constant based on machine construction*Armature Current*Armature Current) Go
Maximum Flux In Core When Secondary Winding Is Given
magnetic_flux = EMF Induced In The Secondary Winding/(4.44*frequency*Number of Turns in Secondary winding) Go
Maximum Flux In Core When Primary Winding Is Given
magnetic_flux = EMF Induced In The Primary Winding/(4.44*frequency*Number of Turns in Primary winding) Go
Magnetic flux Of DC Shunt Motor Using Torque
magnetic_flux = Torque/(constant based on machine construction*Armature Current) Go
Magnetic Flux Of DC Shunt Motor Using Kf
magnetic_flux = Back emf/(Angular Speed*constant based on machine construction) Go
Magnetic Flux Of Synchronous Motor Using Back EMF
magnetic_flux = Back emf/(Constant of the armature winding*Synchronous Speed) Go
Magnetic Flux using Speed of Shunt DC Motor
magnetic_flux = Back emf*Constant Of The DC Machine/Motor Speed Go

Magnetic Flux Formula

magnetic_flux = Magnetic Field*Length*Breadth*cos(θ)
ΦB = B*l*b*cos(θ)

How to Calculate Magnetic Flux?

Magnetic Flux calculator uses magnetic_flux = Magnetic Field*Length*Breadth*cos(θ) to calculate the Magnetic Flux, Magnetic flux (ΦB) is the number of magnetic field lines (also called "magnetic flux density") passing through a surface (such as a loop of wire). Magnetic Flux and is denoted by ΦB symbol.

How to calculate Magnetic Flux using this online calculator? To use this online calculator for Magnetic Flux, enter Magnetic Field (B), Length (l), Breadth (b) and θ (θ) and hit the calculate button. Here is how the Magnetic Flux calculation can be explained with given input values -> 10.6066 = 2.5*3*2*cos(45).

FAQ

What is Magnetic Flux?
Magnetic flux (ΦB) is the number of magnetic field lines (also called "magnetic flux density") passing through a surface (such as a loop of wire) and is represented as ΦB = B*l*b*cos(θ) or magnetic_flux = Magnetic Field*Length*Breadth*cos(θ). Magnetic fields are produced by electric currents, which can be macroscopic currents in wires, or microscopic currents associated with electrons in atomic orbits, Length is the measurement or extent of something from end to end, Breadth is the measurement or extent of something from side to side and θ is the angle between the magnetic field and normal to the surface.
How to calculate Magnetic Flux?
Magnetic flux (ΦB) is the number of magnetic field lines (also called "magnetic flux density") passing through a surface (such as a loop of wire) is calculated using magnetic_flux = Magnetic Field*Length*Breadth*cos(θ). To calculate Magnetic Flux, you need Magnetic Field (B), Length (l), Breadth (b) and θ (θ). With our tool, you need to enter the respective value for Magnetic Field, Length, Breadth and θ 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 Magnetic Flux?
In this formula, Magnetic Flux uses Magnetic Field, Length, Breadth and θ. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • magnetic_flux = EMF Induced In The Primary Winding/(4.44*frequency*Number of Turns in Primary winding)
  • magnetic_flux = EMF Induced In The Secondary Winding/(4.44*frequency*Number of Turns in Secondary winding)
  • magnetic_flux = Induced voltage/(constant based on machine construction*Armature Current*Angular Speed)
  • magnetic_flux = Torque/(constant based on machine construction*Armature Current*Armature Current)
  • magnetic_flux = Back emf/(Angular Speed*constant based on machine construction)
  • magnetic_flux = Torque/(constant based on machine construction*Armature Current)
  • magnetic_flux = Back emf*Constant Of The DC Machine/Motor Speed
  • magnetic_flux = Induced voltage/(constant based on machine construction*Armature Current*Angular Speed)
  • magnetic_flux = Torque/(constant based on machine construction*Armature Current*Armature Current)
  • magnetic_flux = (Voltage-(Armature Current*(Armature resistance-Shunt field resistance)))/(Constant Of The DC Machine*Motor Speed)
  • magnetic_flux = Back emf/(Constant of the armature winding*Synchronous Speed)
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