Magnetic Flux of DC Machine given Torque Solution

STEP 0: Pre-Calculation Summary
Formula Used
Magnetic Flux = Torque/(Machine Constant*Armature Current)
Φ = τ/(Kf*Ia)
This formula uses 4 Variables
Variables Used
Magnetic Flux - (Measured in Weber) - Magnetic Flux refers to the lines of magnetic force that pass through the magnetic circuit of the machine. The magnetic flux is created by field winding that is wound around pole shoes.
Torque - (Measured in Newton Meter) - Torque is the measure of the turning force produced by the armature. It is produced by the interaction between the magnetic field of the stator and the current flowing through armature.
Machine Constant - Machine Constant refers to the parameter which usually has a constant value for a particular type of dc machine.
Armature Current - (Measured in Ampere) - Armature Current is defined as the current developed in the armature of an electrical DC generator due to movement of rotor.
STEP 1: Convert Input(s) to Base Unit
Torque: 0.62 Newton Meter --> 0.62 Newton Meter No Conversion Required
Machine Constant: 2.864 --> No Conversion Required
Armature Current: 0.75 Ampere --> 0.75 Ampere No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Φ = τ/(Kf*Ia) --> 0.62/(2.864*0.75)
Evaluating ... ...
Φ = 0.288640595903166
STEP 3: Convert Result to Output's Unit
0.288640595903166 Weber --> No Conversion Required
FINAL ANSWER
0.288640595903166 0.288641 Weber <-- Magnetic Flux
(Calculation completed in 00.020 seconds)

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16 DC Machine Characterstics Calculators

Mechanical Efficiency given Induced Voltage and Armature Current
Go Mechanical Efficiency = (Electrical Efficiency*Output Voltage*Armature Current)/(Angular Speed*Torque)
Electrical Efficiency of DC Machine
Go Electrical Efficiency = (Mechanical Efficiency*Angular Speed*Torque)/(Output Voltage*Armature Current)
Design Constant of DC Machine
Go Machine Constant = (Number of Conductors*Number of Poles)/(2*pi*Number of Parallel Paths)
Angular Speed of DC Machine using Kf
Go Angular Speed = Armature Voltage/(Machine Constant*Magnetic Flux*Armature Current)
Armature Induced Voltage of DC Machine given Kf
Go Armature Voltage = Machine Constant*Armature Current*Magnetic Flux*Angular Speed
Back EMF of DC Generator
Go Back EMF = Output Voltage-(Armature Current*Armature Resistance)
Magnetic Flux of DC Machine given Torque
Go Magnetic Flux = Torque/(Machine Constant*Armature Current)
EMF Generated in DC Machine with Lap Winding
Go EMF = (Rotor Speed*Number of Conductors*Flux per Pole)/60
Torque generated in DC Machine
Go Torque = Machine Constant*Magnetic Flux*Armature Current
Coil Span of DC Motor
Go Coil Span Factor = Number of Commutator Segments/Number of Poles
Front Pitch for DC Machine
Go Front Pitch = ((2*Number of Slots)/Number of Poles)-1
Back Pitch for DC Machine
Go Back Pitch = ((2*Number of Slots)/Number of Poles)+1
Input Power of DC Motor
Go Input Power = Supply Voltage*Armature Current
Pole Pitch in DC Generator
Go Pole Pitch = Number of Slots/Number of Poles
Back Pitch for DC Machine given Coil Span
Go Back Pitch = Coil Span*Coil Span Factor
Output Power of DC Machine
Go Output Power = Angular Speed*Torque

Magnetic Flux of DC Machine given Torque Formula

Magnetic Flux = Torque/(Machine Constant*Armature Current)
Φ = τ/(Kf*Ia)

What are the features of DC series motor?

In a DC series motor, the field winding is connected in series with the armature and hence carries the full armature current. When the load on shaft of the motor is increased, the armature current also increases. Hence, the flux in a series motor increases with the increase in the armature current and vice-versa.

How to Calculate Magnetic Flux of DC Machine given Torque?

Magnetic Flux of DC Machine given Torque calculator uses Magnetic Flux = Torque/(Machine Constant*Armature Current) to calculate the Magnetic Flux, The Magnetic Flux of DC Machine given Torque formula is defined as the number of magnetic field lines (also called "magnetic flux density") passing through a surface (such as a loop of wire). Magnetic Flux is denoted by Φ symbol.

How to calculate Magnetic Flux of DC Machine given Torque using this online calculator? To use this online calculator for Magnetic Flux of DC Machine given Torque, enter Torque (τ), Machine Constant (Kf) & Armature Current (Ia) and hit the calculate button. Here is how the Magnetic Flux of DC Machine given Torque calculation can be explained with given input values -> 0.288641 = 0.62/(2.864*0.75).

FAQ

What is Magnetic Flux of DC Machine given Torque?
The Magnetic Flux of DC Machine given Torque formula is defined as 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 Φ = τ/(Kf*Ia) or Magnetic Flux = Torque/(Machine Constant*Armature Current). Torque is the measure of the turning force produced by the armature. It is produced by the interaction between the magnetic field of the stator and the current flowing through armature, Machine Constant refers to the parameter which usually has a constant value for a particular type of dc machine & Armature Current is defined as the current developed in the armature of an electrical DC generator due to movement of rotor.
How to calculate Magnetic Flux of DC Machine given Torque?
The Magnetic Flux of DC Machine given Torque formula is defined as 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 = Torque/(Machine Constant*Armature Current). To calculate Magnetic Flux of DC Machine given Torque, you need Torque (τ), Machine Constant (Kf) & Armature Current (Ia). With our tool, you need to enter the respective value for Torque, Machine Constant & Armature Current 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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