Voltages Induced in Field Cutting Conductors Calculator

✖Magnetic flux density is equal to the magnetic field strength times the absolute permeability of the region where the field exists. Magnetic flux density formula, B=μH.ⓘ Magnetic Flux Density [B]			+10% -10%
✖Length of Conductor is defined as the total length of the conductor carrying current through it.ⓘ Length of Conductor [l]			+10% -10%
✖Charge Velocity is defined as the speed with which charge drifts in a conductor.ⓘ Charge Velocity [u]			+10% -10%

✖Voltage can be defined as electric potential along a wire when an electric current of one ampere dissipates one watt of power.ⓘ Voltages Induced in Field Cutting Conductors [e]

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Voltages Induced in Field Cutting Conductors

Formula

`"e" = "B"*"l"*"u"`

Example

`"229.5V"="0.2T"*"270mm"*"4250m/s"`

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Voltages Induced in Field Cutting Conductors Solution

STEP 0: Pre-Calculation Summary

Formula Used

Voltage = Magnetic Flux Density*Length of Conductor*Charge Velocity
e = B*l*u
This formula uses 4 Variables

Variables Used

Voltage - (Measured in Volt) - Voltage can be defined as electric potential along a wire when an electric current of one ampere dissipates one watt of power.
Magnetic Flux Density - (Measured in Tesla) - Magnetic flux density is equal to the magnetic field strength times the absolute permeability of the region where the field exists. Magnetic flux density formula, B=μH.
Length of Conductor - (Measured in Meter) - Length of Conductor is defined as the total length of the conductor carrying current through it.
Charge Velocity - (Measured in Meter per Second) - Charge Velocity is defined as the speed with which charge drifts in a conductor.

STEP 1: Convert Input(s) to Base Unit

Magnetic Flux Density: 0.2 Tesla --> 0.2 Tesla No Conversion Required
Length of Conductor: 270 Millimeter --> 0.27 Meter (Check conversion here)
Charge Velocity: 4250 Meter per Second --> 4250 Meter per Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

e = B*l*u --> 0.2*0.27*4250

Evaluating ... ...

e = 229.5

STEP 3: Convert Result to Output's Unit

229.5 Volt --> No Conversion Required

FINAL ANSWER

229.5 Volt <-- Voltage

(Calculation completed in 00.004 seconds)

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Created by Parminder Singh

Chandigarh University (CU), Punjab

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< 6 Electrical Specifications Calculators

Forces on Current Carrying Wires

Go Force = Magnetic Flux Density*Electric Current*Length of Conductor*sin(Angle between Vectors)

Forces on Charges Moving in Magnetic Fields

Go Force = Electric Charge*Charge Velocity*Magnetic Flux Density*sin(Angle between Vectors)

Minimum Frequency to Avoid Saturation

Go Frequency = Peak Voltage/(2*pi*Secondary Turns of Coil*Area of Coil)

Voltages Induced in Field Cutting Conductors

Go Voltage = Magnetic Flux Density*Length of Conductor*Charge Velocity

Percent Voltage Regulation

Go Percentage Regulation = ((No Load Voltage-Voltage)/Voltage)*100

Energy Stored in Magnetic Field

Go Energy = Magnetic Flux Density/(Magnetic Permeability of a Medium^2)

Voltages Induced in Field Cutting Conductors Formula

Voltage = Magnetic Flux Density*Length of Conductor*Charge Velocity
e = B*l*u

What is Faraday’s Law of Electromagnetic Induction?

Electromagnetic Induction was first discovered way back in the 1830’s by Michael Faraday. Faraday noticed that when he moved a permanent magnet in and out of a coil or a single loop of wire it induced an ElectroMotive Force or emf, in other words a Voltage, and therefore a current was produced.

How to Calculate Voltages Induced in Field Cutting Conductors?

Voltages Induced in Field Cutting Conductors calculator uses Voltage = Magnetic Flux Density*Length of Conductor*Charge Velocity to calculate the Voltage, The Voltages Induced in Field Cutting Conductors formula is defined as when an electric current flowing through a single wire will produce a magnetic field around it. If the wire is wound into a coil, the magnetic field is greatly intensified producing a static magnetic field around itself forming the shape of a bar magnet giving a distinct North and South pole. Voltage is denoted by e symbol.

How to calculate Voltages Induced in Field Cutting Conductors using this online calculator? To use this online calculator for Voltages Induced in Field Cutting Conductors, enter Magnetic Flux Density (B), Length of Conductor (l) & Charge Velocity (u) and hit the calculate button. Here is how the Voltages Induced in Field Cutting Conductors calculation can be explained with given input values -> 229.5 = 0.2*0.27*4250.

FAQ

What is Voltages Induced in Field Cutting Conductors?

The Voltages Induced in Field Cutting Conductors formula is defined as when an electric current flowing through a single wire will produce a magnetic field around it. If the wire is wound into a coil, the magnetic field is greatly intensified producing a static magnetic field around itself forming the shape of a bar magnet giving a distinct North and South pole and is represented as e = B*l*u or Voltage = Magnetic Flux Density*Length of Conductor*Charge Velocity. Magnetic flux density is equal to the magnetic field strength times the absolute permeability of the region where the field exists. Magnetic flux density formula, B=μH, Length of Conductor is defined as the total length of the conductor carrying current through it & Charge Velocity is defined as the speed with which charge drifts in a conductor.

How to calculate Voltages Induced in Field Cutting Conductors?

The Voltages Induced in Field Cutting Conductors formula is defined as when an electric current flowing through a single wire will produce a magnetic field around it. If the wire is wound into a coil, the magnetic field is greatly intensified producing a static magnetic field around itself forming the shape of a bar magnet giving a distinct North and South pole is calculated using Voltage = Magnetic Flux Density*Length of Conductor*Charge Velocity. To calculate Voltages Induced in Field Cutting Conductors, you need Magnetic Flux Density (B), Length of Conductor (l) & Charge Velocity (u). With our tool, you need to enter the respective value for Magnetic Flux Density, Length of Conductor & Charge Velocity 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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