Frequency When The Number of Poles Is Given Calculator

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✖The number of pole is properties of the transfer function, and therefore of the diﬀerential equation describing the input-output system dynamics.ⓘ Number of pole [P]			+10% -10%
✖Synchronous speed is a definite speed for an alternating-current machine that is dependent on the frequency of the supply circuit.ⓘ Synchronous Speed [Ns]			+10% -10%

✖Frequency refers to the number of occurrences of a periodic event per time and is measured in cycles/second.ⓘ Frequency When The Number of Poles Is Given [f]

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Frequency When The Number of Poles Is Given

Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

Urvi Rathod has created this Calculator and 100+ more calculators!

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

Torque In Running Condition

Torque=3*Slip*Electromotive Force*Electromotive Force*Resistance/(2*pi*Synchronous Speed*((Resistance*Resistance)+(Reactance*Reactance*Slip))) GO

Starting Torque of Inductance Motor

Torque=(3*Electromotive Force*Electromotive Force*Resistance)/2*pi*Synchronous Speed*((Resistance*Resistance)+(Reactance*Reactance)) GO

EMF For DC Generator

Electromotive Force=Flux per pole*Number of pole*Motor Speed*Number of conductors/60*Number of parallel paths GO

Constant Of The DC Machine

Constant Of The DC Machine=Number of conductors*Number of pole/2*pi*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

Maximum Running Torque

Torque=(3*Electromotive Force*Electromotive Force)/(4*pi*Synchronous Speed*Reactance) GO

Slip

Slip=(Synchronous Speed-Motor Speed)/Synchronous Speed GO

Synchronous Speed

Synchronous Speed=(120*frequency)/Number of pole GO

Rotor Efficiency

Efficiency =Motor Speed/Synchronous Speed GO

Frequency When Speed Is Given

frequency=Number of pole*Motor Speed/120 GO

Motor Speed

Motor Speed=Synchronous Speed*(1-Slip) GO

< 11 Other formulas that calculate the same Output

Frequency Of A Closed Organ Pipe

frequency=((2*Number Of Nodes+1)*Velocity)/(4*Length Of The Organ Pipe) GO

Frequency Of A Open Organ Pipe

frequency=((Number Of Nodes*Velocity)/2*Length Of The Organ Pipe) GO

Frequency Of Closed Organ Pipe(3rd Harmonic)

frequency=(3*Velocity)/(4*Length Of The Organ Pipe) GO

Frequency Of Closed Organ Pipe(1st Harmonic)

frequency=Velocity/(4*Length Of The Organ Pipe) GO

Frequency of SHM for compound pendulum

frequency=1/Periodic time for compound pendulum GO

Frequency Of A Open Organ Pipe(2nd Harmonic)

frequency=Velocity/Length Of The Organ Pipe GO

Frequency OF Wave (Using Time Period)

frequency=1/Time Period Of Progressive Wave GO

Frequency When Speed Is Given

frequency=Number of pole*Motor Speed/120 GO

Frequency Of Wavelength ( Using Velocity )

frequency=Velocity/Wavelength Of A Wave GO

Frequency Of A Progressive Wave

frequency=Angular Frequency/(2*pi) GO

Frequency of oscillation for SHM

frequency=1/Time Period SHM GO

Frequency When The Number of Poles Is Given Formula

frequency=Number of pole*Synchronous Speed/120

More formulas

Force GO

Synchronous Speed GO

Slip GO

Motor Speed GO

Slip When Frequency Is Given GO

Rotor Efficiency GO

Motor Efficiency Using Slip GO

Slip Of Linear Synchronous Motor GO

Force By A Linear Induction Motor GO

Rotor Copper Loss GO

Gross Mechanical Power GO

Starting Torque of Inductance Motor GO

Torque In Running Condition GO

Maximum Running Torque GO

Breakdown Slip Of An Induction Motor GO

Slip When Efficiency Is Given GO

Motor Speed When Efficiency Is Given GO

Synchronous Speed When Efficiency Is Given GO

Slip When The Copper Loss Is Given GO

Resistance When Slip Is Given GO

Reactance When Slip Is Given GO

Voltage GO

Gross Torque When Synchronous Speed Is Given GO

Synchronous Speed When Mechanical Power Is Given GO

Gross Torque When Mechanical Power Is Given GO

Synchronous Speed When Gross Torque Is Given GO

Field Current When Load Current Is Given GO

Load Current GO

Induced Voltage When Power Is Given GO

Armature Current When Power Is Given GO

Motor Speed When Angular Speed Is Given GO

Synchronous Speed When Motor Speed Is Given GO

Slip When Input Power Is Given GO

Number Of Poles When Synchronous Speed Is Given GO

What is Synchronous speed?

Synchronous Speed is the speed of the stator magnetic field in the three-phase induction motor and Motor Speed is the speed at which the rotor rotates.

How to Calculate Frequency When The Number of Poles Is Given?

Frequency When The Number of Poles Is Given calculator uses frequency=Number of pole*Synchronous Speed/120 to calculate the frequency, Frequency when the number of poles is given is the number of occurrences of a repeating event per unit of time. It is also the number of times something happens within a particular period, or the fact of something happening often or a large number of times. frequency and is denoted by f symbol.

How to calculate Frequency When The Number of Poles Is Given using this online calculator? To use this online calculator for Frequency When The Number of Poles Is Given, enter Synchronous Speed (Ns) and Number of pole (P) and hit the calculate button. Here is how the Frequency When The Number of Poles Is Given calculation can be explained with given input values -> 15 = 6*300/120.

FAQ

What is Frequency When The Number of Poles Is Given?

Frequency when the number of poles is given is the number of occurrences of a repeating event per unit of time. It is also the number of times something happens within a particular period, or the fact of something happening often or a large number of times and is represented as f=P*Ns/120 or frequency=Number of pole*Synchronous Speed/120. Synchronous speed is a definite speed for an alternating-current machine that is dependent on the frequency of the supply circuit and The number of pole is properties of the transfer function, and therefore of the diﬀerential equation describing the input-output system dynamics.

How to calculate Frequency When The Number of Poles Is Given?

Frequency when the number of poles is given is the number of occurrences of a repeating event per unit of time. It is also the number of times something happens within a particular period, or the fact of something happening often or a large number of times is calculated using frequency=Number of pole*Synchronous Speed/120. To calculate Frequency When The Number of Poles Is Given, you need Synchronous Speed (Ns) and Number of pole (P). With our tool, you need to enter the respective value for Synchronous Speed and Number of pole 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 frequency?

In this formula, frequency uses Synchronous Speed and Number of pole. We can use 11 other way(s) to calculate the same, which is/are as follows -

frequency=1/Time Period SHM
frequency=1/Periodic time for compound pendulum
frequency=Number of pole*Motor Speed/120
frequency=Angular Frequency/(2*pi)
frequency=1/Time Period Of Progressive Wave
frequency=Velocity/Wavelength Of A Wave
frequency=((2*Number Of Nodes+1)*Velocity)/(4*Length Of The Organ Pipe)
frequency=Velocity/(4*Length Of The Organ Pipe)
frequency=(3*Velocity)/(4*Length Of The Organ Pipe)
frequency=((Number Of Nodes*Velocity)/2*Length Of The Organ Pipe)
frequency=Velocity/Length Of The Organ Pipe

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