Armature Current Of Series DC Motor Using Input Power Calculator

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✖Input Power is the power, which is required by the appliance at its input i.e., from the plug point.ⓘ Input Power [P_in]			+10% -10%
✖Voltage, electric potential difference, electric pressure, or electric tension is the difference in electric potential between two points, which is defined as the work needed per unit of charge to move a test charge between the two points.ⓘ Voltage [V]			+10% -10%

✖Armature Current is the Current which Flows in Armature Winding or rotating Winding of Motor or generator.ⓘ Armature Current Of Series DC Motor Using Input Power [Ia]

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Armature Current Of Series DC Motor Using Input Power

Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

Urvi Rathod has created this Calculator and 500+ more calculators!

Kethavath Srinath

Osmania University (OU), Hyderabad

Kethavath Srinath has verified this Calculator and 500+ more calculators!

< 11 Other formulas that you can solve using the same Inputs

Back EMF

Electromotive Force=Voltage-(Armature Current*Armature resistance) Go

Velocity of an electron due to voltage

Velocity due to voltage=((2*[Charge-e]*Voltage)/[Mass-e])^1/2 Go

Energy Stored in Capacitor when Capacitance and Voltage are Given

electrostatic potential energy=1/2*Capacitance*Voltage^2 Go

Shunt Field Current

Shunt Field Current=Voltage/Shunt field resistance Go

Energy Stored in Capacitor when Charge and Voltage are Given

electrostatic potential energy=1/2*Charge*Voltage Go

Capacitance

Capacitance=dielectric constant*Charge/Voltage Go

Field Current

Field Current=Voltage/Shunt field resistance Go

Efficiency of Machine

Gear Efficiency=Output Power/Input Power Go

Power Loss

Power Loss=Input Power-Output Power Go

Rotor Copper Loss

Rotor Cu Loss=Slip*Input Power Go

Gross Mechanical Power

Power=(1-Slip)*Input Power Go

< 11 Other formulas that calculate the same Output

Armature Current Of Series DC Generator Using Kf

Armature Current=Induced voltage/constant based on machine construction*Magnetic Flux*Angular Speed Go

Armature Current Of Series DC Generator Using Terminal Voltage

Armature Current=(Induced voltage-Voltage)/(Series field resistance+Armature resistance) Go

Armature Current Of Series DC Motor Using Voltage

Armature Current=(Voltage-Induced voltage)/(Armature resistance+Series field resistance) Go

Armature Current Of Shunt DC Motor Using The Torque

Armature Current=Torque/(constant based on machine construction*Magnetic Flux) Go

Armature Current Of Series DC Generator Using Torque

Armature Current=(Torque*Angular Speed)/Induced voltage Go

Armature Current Of Shunt DC Motor Using Voltage

Armature Current=(Voltage-Back emf)/Armature resistance Go

Armature Current Of Series DC Generator Using Generated Power

Armature Current=Power generated /Induced voltage Go

Armature Current Of Series DC Generator Using Converted Power

Armature Current=Converted Power/Induced voltage Go

Armature Current

Armature Current=Field Current+Load current Go

Armature Current When Power Is Given

Armature Current=Power/Induced voltage Go

Armature Current Of Shunt DC Motor Using Input Power

Armature Current=Input Power/Voltage Go

Armature Current Of Series DC Motor Using Input Power Formula

Armature Current=Input Power/Voltage
Ia=P<sub>in</sub>/V

More formulas

Voltage Equation Of Series DC Motor Go

Armature Induced Voltage Of Series DC Using Voltage Go

Armature Current Of Series DC Motor Using Voltage Go

Armature Resistance Of Series DC Motor Using Voltage Go

Series Field Resistance Of Series DC Motor Using Voltage Go

Armature Induced Voltage Of Series DC Motor Using Kf Go

Magnetic Flux Of Series DC Motor Using Kf Go

Angular Speed Of Series DC Motor Using Kf Go

Armature Current Of Series DC Motor Using Kf Go

Kf of Series DC Motor Using Armature Induced Voltage Go

Torque Of Series DC Motor Using Kf Go

Kf Of Series DC Motor Using Torque Go

Magnetic Flux Of Series DC motor Using Torque Go

Armature Current Of Series DC Motor Using Torque Go

Speed Of Series DC Motor Go

Voltage Of Series DC Motor Using Speed Go

Armature Current Of Series DC Motor Using Speed Go

Series Field Resistance Of Series DC Motor Using Speed Go

K of Series DC Motor Using Speed Go

Magnetic Flux Of Series DC Motor Using Speed Go

Input Power Of Series DC Motor Go

Output Power Of Series DC Motor Go

Voltage Of Series DC Motor Using Input Power Go

Angular Speed Of Series DC Motor Using Output Power Go

Torque Of Series DC Motor Using Output Power Go

What is a series DC motor?

A series wound DC motor like in the case of shunt wound DC motor or compound wound DC motor falls under the category of self-excited DC motors, and it gets its name from the fact that the field winding, in this case, is connected internally in series to the armature winding.

How to Calculate Armature Current Of Series DC Motor Using Input Power?

Armature Current Of Series DC Motor Using Input Power calculator uses Armature Current=Input Power/Voltage to calculate the Armature Current, The Armature Current Of Series DC Motor Using Input Power formula is defined as the current that flows into the armature winding of the DC series motor. Armature Current and is denoted by Ia symbol.

How to calculate Armature Current Of Series DC Motor Using Input Power using this online calculator? To use this online calculator for Armature Current Of Series DC Motor Using Input Power, enter Input Power (P_in) and Voltage (V) and hit the calculate button. Here is how the Armature Current Of Series DC Motor Using Input Power calculation can be explained with given input values -> 0.333333 = 40/120.

FAQ

What is Armature Current Of Series DC Motor Using Input Power?

The Armature Current Of Series DC Motor Using Input Power formula is defined as the current that flows into the armature winding of the DC series motor and is represented as Ia=P_in/V or Armature Current=Input Power/Voltage. Input Power is the power, which is required by the appliance at its input i.e., from the plug point and Voltage, electric potential difference, electric pressure, or electric tension is the difference in electric potential between two points, which is defined as the work needed per unit of charge to move a test charge between the two points.

How to calculate Armature Current Of Series DC Motor Using Input Power?

The Armature Current Of Series DC Motor Using Input Power formula is defined as the current that flows into the armature winding of the DC series motor is calculated using Armature Current=Input Power/Voltage. To calculate Armature Current Of Series DC Motor Using Input Power, you need Input Power (P_in) and Voltage (V). With our tool, you need to enter the respective value for Input Power and Voltage 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 Armature Current?

In this formula, Armature Current uses Input Power and Voltage. We can use 11 other way(s) to calculate the same, which is/are as follows -

Armature Current=Field Current+Load current
Armature Current=Power/Induced voltage
Armature Current=(Induced voltage-Voltage)/(Series field resistance+Armature resistance)
Armature Current=Induced voltage/constant based on machine construction*Magnetic Flux*Angular Speed
Armature Current=(Torque*Angular Speed)/Induced voltage
Armature Current=Power generated /Induced voltage
Armature Current=Converted Power/Induced voltage
Armature Current=(Voltage-Back emf)/Armature resistance
Armature Current=Torque/(constant based on machine construction*Magnetic Flux)
Armature Current=Input Power/Voltage
Armature Current=(Voltage-Induced voltage)/(Armature resistance+Series field resistance)

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