Number of Armature Conductors of DC Shunt Motor using K Solution

STEP 0: Pre-Calculation Summary
Formula Used
Number of Conductors = (60*Number of Parallel Paths)/(Machine Constant*Number of Poles)
Z = (60*n||)/(K*n)
This formula uses 4 Variables
Variables Used
Number of Conductors - The number of conductors is the variable we use for getting the correct number of conductors placed in the rotor of a dc motor.
Number of Parallel Paths - The Number of Parallel Paths in a DC machine refers to the number of independent paths for current to flow in the armature winding.
Machine Constant - The Machine Constant of DC motor is a constant quantity that we define for making the EMF equation of a DC machine easy.
Number of Poles - Number of Poles is defined as the number of poles in an electrical machine for the flux generation. Number of poles in a motor refers to the number of magnetic poles present in the motor's.
STEP 1: Convert Input(s) to Base Unit
Number of Parallel Paths: 6 --> No Conversion Required
Machine Constant: 2.015 --> No Conversion Required
Number of Poles: 4 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Z = (60*n||)/(K*n) --> (60*6)/(2.015*4)
Evaluating ... ...
Z = 44.6650124069479
STEP 3: Convert Result to Output's Unit
44.6650124069479 --> No Conversion Required
FINAL ANSWER
44.6650124069479 44.66501 <-- Number of Conductors
(Calculation completed in 00.020 seconds)

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7 Mechanical Specifications Calculators

Machine Construction Constant using Speed of Shunt DC Motor
Go Constant of Machine Construction = (Terminal Voltage-Armature Current*Armature Resistance)/(Motor Speed*Magnetic Flux)
Machine Construction Constant of Shunt DC Motor
Go Constant of Machine Construction = (60*Number of Parallel Paths)/(Number of Poles*Number of Conductors)
Number of Armature Conductors of DC Shunt Motor using K
Go Number of Conductors = (60*Number of Parallel Paths)/(Machine Constant*Number of Poles)
Number of Poles of Shunt DC Motor
Go Number of Poles = (60*Number of Parallel Paths)/(Machine Constant*Number of Conductors)
Number of Parallel Paths of Shunt DC Motor
Go Number of Parallel Paths = (Machine Constant*Number of Conductors*Number of Poles)/60
Machine Construction Constant of DC Shunt Motor given Angular Speed
Go Constant of Machine Construction = Back EMF/(Magnetic Flux*Angular Speed)
Machine Constant of DC Shunt Motor given Torque
Go Machine Constant = Torque/(Magnetic Flux*Armature Current)

Number of Armature Conductors of DC Shunt Motor using K Formula

Number of Conductors = (60*Number of Parallel Paths)/(Machine Constant*Number of Poles)
Z = (60*n||)/(K*n)

What are the characteristics of a Shunt DC Motor?

In a dc shunt motor, the field is connected across the armature terminals. Hence at constant supply voltage V, the field current remains constant producing constant Φ. But in practice due to the armature reaction effect, the distribution of air-gap flux gets distorted.

How to Calculate Number of Armature Conductors of DC Shunt Motor using K?

Number of Armature Conductors of DC Shunt Motor using K calculator uses Number of Conductors = (60*Number of Parallel Paths)/(Machine Constant*Number of Poles) to calculate the Number of Conductors, Number of Armature Conductors of DC Shunt Motor using K is defined as the formula we use for getting the correct number of conductors. Number of Conductors is denoted by Z symbol.

How to calculate Number of Armature Conductors of DC Shunt Motor using K using this online calculator? To use this online calculator for Number of Armature Conductors of DC Shunt Motor using K, enter Number of Parallel Paths (n||), Machine Constant (K) & Number of Poles (n) and hit the calculate button. Here is how the Number of Armature Conductors of DC Shunt Motor using K calculation can be explained with given input values -> 44.66501 = (60*6)/(2.015*4).

FAQ

What is Number of Armature Conductors of DC Shunt Motor using K?
Number of Armature Conductors of DC Shunt Motor using K is defined as the formula we use for getting the correct number of conductors and is represented as Z = (60*n||)/(K*n) or Number of Conductors = (60*Number of Parallel Paths)/(Machine Constant*Number of Poles). The Number of Parallel Paths in a DC machine refers to the number of independent paths for current to flow in the armature winding, The Machine Constant of DC motor is a constant quantity that we define for making the EMF equation of a DC machine easy & Number of Poles is defined as the number of poles in an electrical machine for the flux generation. Number of poles in a motor refers to the number of magnetic poles present in the motor's.
How to calculate Number of Armature Conductors of DC Shunt Motor using K?
Number of Armature Conductors of DC Shunt Motor using K is defined as the formula we use for getting the correct number of conductors is calculated using Number of Conductors = (60*Number of Parallel Paths)/(Machine Constant*Number of Poles). To calculate Number of Armature Conductors of DC Shunt Motor using K, you need Number of Parallel Paths (n||), Machine Constant (K) & Number of Poles (n). With our tool, you need to enter the respective value for Number of Parallel Paths, Machine Constant & Number of Poles 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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