Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
Urvi Rathod has created this Calculator and 500+ more calculators!
Kethavath Srinath
Osmania University (OU), Hyderabad
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11 Other formulas that you can solve using the same Inputs

Series Generator Terminal Voltage
Voltage=Induced voltage-(Armature Current*(Armature resistance+Series field resistance)) GO
Mechanical Power Of When Input Power Is Given
Mechanical Power=Input Power-(Armature Current*Armature Current*Armature resistance) GO
Power Loss Due To Brush Drop
Power Loss Due to Brush Drop=Armature Current*Voltage drop due to brush drop GO
Armature Copper Loss
Armature Copper Loss=Armature Current*Armature Current*Armature resistance GO
Back EMF
Electromotive Force=Voltage-(Armature Current*Armature resistance) GO
Mechanical Efficiency
Efficiency =Induced voltage*Armature Current/Angular Speed*Torque GO
Shunt Generator Terminal Voltage
Voltage=Induced voltage-(Armature Current*Armature resistance) GO
Input Power Per Phase
Input Power=Voltage*Armature Current*cos(Theta) GO
Power Generated When The Armature Current Is Given
Power=Induced voltage*Armature Current GO
Converted Power
Power=Induced voltage*Armature Current GO
Power Generated When Torque is Given
Power=Angular Speed*Torque GO

5 Other formulas that calculate the same Output

Kf of Series DC Motor Using Armature Induced Voltage
constant based on machine construction=Induced voltage/(Magnetic Flux*Angular Speed*Armature Current) GO
Kf Of Series DC Motor Using Torque
constant based on machine construction=Torque/(Armature Current*Armature Current*Magnetic Flux) GO
Kf Of DC Shunt Motor Using Torque
constant based on machine construction=Torque/(Magnetic Flux*Armature Current) GO
Kf Of Series DC Generator
constant based on machine construction=Torque/(Magnetic Flux*Armature Current) GO
Kf Of DC Shunt Motor
constant based on machine construction=Back emf/(Magnetic Flux*Angular Speed) GO

Kf Of Series DC Generator Using Torque Formula

constant based on machine construction=Torque/(Magnetic Flux*Armature Current)
Kf=τ/(ΦB*Ia)
More formulas
Armature Resistance Of Series DC Generator Using Voltage GO
Series Field Resistance Of Series DC Generator Using Terminal Voltage GO
Kf Of Series DC Generator GO
Angular Speed Of Series DC Generator Using Kf GO
Magnetic flux Of Series DC Generator Using Kf GO
Torque Of Series DC Generator Using Kf GO
Magnetic flux Of Series DC Generator Using Torque GO
Power Generated By A Series DC Generator GO
Angular Speed Of Series DC Generator Using Generated Power GO
Torque Of Series DC Generator Using Generated Power GO
Torque Of Series DC Generator Using Angular Speed And Armature Current GO
Angular Speed Of Series DC Generator Using Torque GO
Load Power Of Series DC Generator GO
Torque Of Series DC Generator Using Input Power GO
Converted Power Of Series DC Generator GO
Converted Power Of Series DC Generator Using Input Power GO
The Stray Losses Of Series DC Generator Using Converted Power GO
mechanical Losses Of Series DC Generator Using Converted Power GO
Core Losses Of Series DC Generator Using Converted Power GO
Km Of Series Generator GO
Km Of Series Generator Using Terminal Voltage GO
Km Of Series Generator Using Torque GO
Km Of Series Generator Using Angular Speed GO
Km Of Series Generator Using Armature Current GO
Airgap Power Of Series Generator Using Km GO

What is a DC generator used for?

A DC generator is an electrical device used for generating electrical energy. The main function of this device is to change mechanical energy into electrical energy. There are several types of mechanical energy sources available such as hand cranks, internal combustion engines, water turbines, gas and steam turbines.

How to Calculate Kf Of Series DC Generator Using Torque?

Kf Of Series DC Generator Using Torque calculator uses constant based on machine construction=Torque/(Magnetic Flux*Armature Current) to calculate the constant based on machine construction, The Kf Of Series DC Generator Using Torque formula is defined as a constant based on machine construction that is required to find all the basic quality of the machine. constant based on machine construction and is denoted by Kf symbol.

How to calculate Kf Of Series DC Generator Using Torque using this online calculator? To use this online calculator for Kf Of Series DC Generator Using Torque, enter Torque (τ), Magnetic Flux (ΦB) and Armature Current (Ia) and hit the calculate button. Here is how the Kf Of Series DC Generator Using Torque calculation can be explained with given input values -> 0.434783 = 50/(230*0.5).

FAQ

What is Kf Of Series DC Generator Using Torque?
The Kf Of Series DC Generator Using Torque formula is defined as a constant based on machine construction that is required to find all the basic quality of the machine and is represented as Kf=τ/(ΦB*Ia) or constant based on machine construction=Torque/(Magnetic Flux*Armature Current). Torque is described as the turning effect of force on the axis of rotation. In brief, it is a moment of force. It is characterized by τ, 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 Armature Current is the Current which Flows in Armature Winding or rotating Winding of Motor or generator.
How to calculate Kf Of Series DC Generator Using Torque?
The Kf Of Series DC Generator Using Torque formula is defined as a constant based on machine construction that is required to find all the basic quality of the machine is calculated using constant based on machine construction=Torque/(Magnetic Flux*Armature Current). To calculate Kf Of Series DC Generator Using Torque, you need Torque (τ), Magnetic Flux (ΦB) and Armature Current (Ia). With our tool, you need to enter the respective value for Torque, Magnetic Flux and Armature Current 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 constant based on machine construction?
In this formula, constant based on machine construction uses Torque, Magnetic Flux and Armature Current. We can use 5 other way(s) to calculate the same, which is/are as follows -
  • constant based on machine construction=Torque/(Magnetic Flux*Armature Current)
  • constant based on machine construction=Back emf/(Magnetic Flux*Angular Speed)
  • constant based on machine construction=Torque/(Magnetic Flux*Armature Current)
  • constant based on machine construction=Induced voltage/(Magnetic Flux*Angular Speed*Armature Current)
  • constant based on machine construction=Torque/(Armature Current*Armature Current*Magnetic Flux)
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