Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
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Kethavath Srinath
Osmania University (OU), Hyderabad
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11 Other formulas that you can solve using the same Inputs

EMF For DC Generator
Electromotive Force=Flux per pole*Number of pole*Motor Speed*Number of conductors/60*Number of parallel paths GO
EMF For DC Generator For Wave Winding
Electromotive Force=Flux per pole*Number of pole*Motor Speed*Number of conductors/120 GO
EMF Of Dc Machine When Constant Of The DC Machine Is Given
Electromotive Force=Constant Of The DC Machine*Angular Speed*Flux per pole GO
The EMF Generated Per Path For A Lap-winding
Electromotive Force=(Motor Speed*Number of conductors*Flux per pole)/60 GO
Slip Of Linear Synchronous Motor
Slip=(Linear Synchronous Speed-Motor Speed)/Linear Synchronous Speed GO
Slip
Slip=(Synchronous Speed-Motor Speed)/Synchronous Speed GO
Relation in voltage and arc length
Voltage=Constant Of The DC Machine*Arc Length GO
Synchronous Speed When Efficiency Is Given
Synchronous Speed=Motor Speed/Efficiency GO
Rotor Efficiency
Efficiency =Motor Speed/Synchronous Speed GO
Frequency When Speed Is Given
frequency=Number of pole*Motor Speed/120 GO
Angular Speed Of The Dc Machine
Angular Speed=(2*pi*Motor Speed)/60 GO

5 Other formulas that calculate the same Output

Induced Back EMF Of DC Shunt Motor Using kf
Back emf=constant based on machine construction*Magnetic Flux*Angular Speed GO
Back EMF Of Synchronous Motor Using Ka
Back emf=Constant of the armature winding*Magnetic Flux*Synchronous Speed GO
Back EMF Of Synchronous Motor Using Mechanical Power
Back emf=Mechanical Power/Armature Current*cos(Theta 1-Theta 2) GO
Induced Back EMF Shunt DC Motor Using Voltage
Back emf=Voltage/(Armature Current*Armature resistance) GO
Maximum Power Condition Of Shunt DC Motor
Back emf=Voltage/2 GO

Back Emf Of Shunt DC Motor Using Motor Speed Formula

Back emf=(Motor Speed*Magnetic Flux)/ Constant Of The DC Machine
Eb=(N*ΦB)/ K
More formulas
Voltage Of Shunt DC Motor GO
Induced Back EMF Shunt DC Motor Using Voltage GO
Armature Current Of Shunt DC Motor Using Voltage GO
Armature Resistance Of Shunt DC Motor Using Voltage GO
Shunt Field Current Of Shunt DC Motor GO
Voltage Of Shunt DC Motor Using Shunt Field Current GO
Shunt Field Resistance Of Shunt DC Motor Using The Shunt Field Current GO
Induced Back EMF Of DC Shunt Motor Using kf GO
Magnetic Flux Of DC Shunt Motor Using Kf GO
Angular Speed Of DC Shunt Motor Using Kf GO
Kf Of DC Shunt Motor GO
Torque Of DC Shunt Motor Using Kf GO
Kf Of DC Shunt Motor Using Torque GO
Magnetic flux Of DC Shunt Motor Using Torque GO
Armature Current Of Shunt DC Motor Using The Torque GO
Shunt DC Motor Speed Using Back Emf GO
Magnetic Flux using Speed of Shunt DC Motor GO
Maximum Power Condition Of Shunt DC Motor GO
K Using Speed Of Shunt DC Motor GO
K Of Shunt DC Motor GO
Armature Parallel Path Of Shunt DC Motor Using K GO
Armature Conductors Of DC Shunt Motor Using K GO
Number Of Pole Of Shunt DC Motor Using K GO
Speed Regulation Of Shunt DC Motor GO
No Load Speed Of Shunt DC Motor GO
Full Load Speed Of Shunt DC Motor GO
Input Power Of Shunt DC Motor GO
Output Power Of Shunt DC Motor GO
Voltage Of Shunt DC Motor Using Input Power GO
Armature Current Of Shunt DC Motor Using Input Power GO
Torque Of DC Shunt Motor Using Output Power GO
Angular Speed Of DC Shunt Motor Using Output Power GO

What is a DC shunt motor?

A DC shunt motor is a type of self-excited DC motor, and it is also known as a shunt wound DC motor. The field windings in this motor can be connected in parallel to the armature winding.

How to Calculate Back Emf Of Shunt DC Motor Using Motor Speed?

Back Emf Of Shunt DC Motor Using Motor Speed calculator uses Back emf=(Motor Speed*Magnetic Flux)/ Constant Of The DC Machine to calculate the Back emf, The Back Emf Of Shunt DC Motor Using Motor Speed formula is defined as the electromotive force that resists the induced emf of the shunt DC motor. . Back emf and is denoted by Eb symbol.

How to calculate Back Emf Of Shunt DC Motor Using Motor Speed using this online calculator? To use this online calculator for Back Emf Of Shunt DC Motor Using Motor Speed, enter Motor Speed (N), Magnetic Flux (ΦB) and Constant Of The DC Machine (K) and hit the calculate button. Here is how the Back Emf Of Shunt DC Motor Using Motor Speed calculation can be explained with given input values -> 460000 = (1000*230)/ 0.5.

FAQ

What is Back Emf Of Shunt DC Motor Using Motor Speed?
The Back Emf Of Shunt DC Motor Using Motor Speed formula is defined as the electromotive force that resists the induced emf of the shunt DC motor. and is represented as Eb=(N*ΦB)/ K or Back emf=(Motor Speed*Magnetic Flux)/ Constant Of The DC Machine. Motor Speed is the speed of the rotor(motor), Magnetic flux (ΦB) is the number of magnetic field lines (also called "चुंबकीय प्रवाह घनता") passing through a surface (such as a loop of wire) and Constant of the dc machine is a constant quantity that we define for making the EMF equation of a DC machine easy.
How to calculate Back Emf Of Shunt DC Motor Using Motor Speed?
The Back Emf Of Shunt DC Motor Using Motor Speed formula is defined as the electromotive force that resists the induced emf of the shunt DC motor. is calculated using Back emf=(Motor Speed*Magnetic Flux)/ Constant Of The DC Machine. To calculate Back Emf Of Shunt DC Motor Using Motor Speed, you need Motor Speed (N), Magnetic Flux (ΦB) and Constant Of The DC Machine (K). With our tool, you need to enter the respective value for Motor Speed, Magnetic Flux and Constant Of The DC Machine 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 Back emf?
In this formula, Back emf uses Motor Speed, Magnetic Flux and Constant Of The DC Machine. We can use 5 other way(s) to calculate the same, which is/are as follows -
  • Back emf=Voltage/(Armature Current*Armature resistance)
  • Back emf=constant based on machine construction*Magnetic Flux*Angular Speed
  • Back emf=Voltage/2
  • Back emf=Mechanical Power/Armature Current*cos(Theta 1-Theta 2)
  • Back emf=Constant of the armature winding*Magnetic Flux*Synchronous Speed
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