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Voltage Transformation Ratio When Secondary Leakage Resistance Is Given Solution

STEP 0: Pre-Calculation Summary
Formula Used
voltage_transformation_ratio = sqrt(Resistance of Secondary winding in primary/(Equivalent resistance of transformer from primary-Resistance of Primary winding in Secondary))
K = sqrt(R2'/(R01-R1'))
This formula uses 1 Functions, 3 Variables
Functions Used
sqrt - Squre root function, sqrt(Number)
Variables Used
Resistance of Secondary winding in primary - Resistance of Secondary winding in primary is the Resistance of Secondary winding in primary. (Measured in Ohm)
Equivalent resistance of transformer from primary - The equivalent resistance of transformer from primary side is the total resistance of primary side. (Measured in Ohm)
Resistance of Primary winding in Secondary - Resistance of Primary winding in Secondary is the Resistance of Primary winding in Secondary. (Measured in Ohm)
STEP 1: Convert Input(s) to Base Unit
Resistance of Secondary winding in primary: 6 Ohm --> 6 Ohm No Conversion Required
Equivalent resistance of transformer from primary: 2 Ohm --> 2 Ohm No Conversion Required
Resistance of Primary winding in Secondary: 5 Ohm --> 5 Ohm No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
K = sqrt(R2'/(R01-R1')) --> sqrt(6/(2-5))
Evaluating ... ...
K = NaN
STEP 3: Convert Result to Output's Unit
NaN --> No Conversion Required
FINAL ANSWER
NaN <-- Voltage Transformation Ratio
(Calculation completed in 00.031 seconds)

11 Other formulas that you can solve using the same Inputs

Equivalent Impedance Of Transformer From Primary Side
impedance_01 = sqrt((Equivalent reactance from primary*Equivalent reactance from primary)+(Equivalent resistance of transformer from primary*Equivalent resistance of transformer from primary)) Go
Impedance Of Secondary Winding
impedance_2 = sqrt((Resistance of Secondary winding in primary*Resistance of Secondary winding in primary)+(Reactance of Secondary in primary*Reactance of Secondary in primary)) Go
Impedance Of Primary Winding
impedance_1 = sqrt((Resistance of Primary winding in Secondary*Resistance of Primary winding in Secondary)+(Reactance of Primary in Secondary*Reactance of Primary in Secondary)) Go
Equivalent Resistance From Primary Side When Secondary Winding Resistance
resistance_01 = Resistance of Primary winding in Secondary+(Resistance of Secondary winding in primary/(Voltage Transformation Ratio*Voltage Transformation Ratio)) Go
Equivalent Resistance From Secondary Side When Primary Winding Resistance
resistance_02 = Resistance of Secondary winding in primary+(Resistance of Primary winding in Secondary/(Voltage Transformation Ratio*Voltage Transformation Ratio)) Go
Resistance Of Secondary In Primary When Equivalent Resistance From Primary Side Is Given
resistance_2 = Equivalent resistance of transformer from primary-Resistance of Primary winding in Secondary Go
Equivalent Resistance Of Transformer From Secondary Side
resistance_02 = Resistance of Primary winding in Secondary+Resistance of Secondary winding in primary Go
Equivalent Resistance Of Transformer From Primary Side
resistance_01 = Resistance of Secondary winding in primary+Resistance of Primary winding in Secondary Go
Resistance Of Primary In Secondary When Equivalent Resistance From Secondary Side Is Given
resistance_1 = Equivalent resistance from Secondary-Resistance of Secondary winding in primary Go
Resistance Of Secondary Winding In Primary
resistance_2 = resistance_2/(Voltage Transformation Ratio*Voltage Transformation Ratio) Go
Resistance Of Primary Winding In Secondary
resistance_1 = resistance_1*Voltage Transformation Ratio*Voltage Transformation Ratio Go

11 Other formulas that calculate the same Output

Voltage Transformation Ratio When Equivalent Resistance From Primary Side Is Given
voltage_transformation_ratio = sqrt(Resistance of Secondary winding in primary/(Equivalent resistance of transformer from primary-Resistance of Primary winding in Secondary)) Go
Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given
voltage_transformation_ratio = sqrt(Resistance of Primary winding in Secondary/(Equivalent resistance from Secondary-Resistance of Secondary winding in primary)) Go
Voltage Transformation Ratio When Primary Leakage Resistance Is Given
voltage_transformation_ratio = sqrt(Resistance of Primary winding in Secondary/(Equivalent resistance from Secondary-Resistance of Secondary winding in primary)) Go
Voltage Transformation Ratio When Equivalent Reactance From Secondary Side Is Given
voltage_transformation_ratio = sqrt((Equivalent reactance from secondary-Reactance of Secondary in primary)/Reactance of Primary in Secondary) Go
Voltage Transformation Ratio When Equivalent Reactance From Primary Side Is Given
voltage_transformation_ratio = sqrt(Reactance of Secondary in primary/(Equivalent reactance from primary-Reactance of Primary in Secondary)) Go
Voltage Transformation Ratio When Secondary Leakage Reactance Is Given
voltage_transformation_ratio = sqrt(Reactance of Secondary in primary/Reactance of Secondary in primary) Go
Voltage Transformation Ratio When Primary Leakage Reactance Is Given
voltage_transformation_ratio = sqrt(Reactance of Primary in Secondary/Reactance of Primary in Secondary) Go
Voltage Transformation Ratio When Primary And Secondary Induced Voltage Is Given
voltage_transformation_ratio = EMF Induced In The Secondary Winding/EMF Induced In The Primary Winding Go
Voltage Transformation Ratio When Primary And Secondary Number Of Turns Is Given
voltage_transformation_ratio = Number of Turns in Secondary winding/Number of Turns in Primary winding Go
Voltage Transformation Ratio When Primary And Secondary Current Is Given
voltage_transformation_ratio = Primary Current /Secondary Current Go
Voltage Transformation Ratio When Primary And Secondary Voltage Is Given
voltage_transformation_ratio = Voltage2/voltage1 Go

Voltage Transformation Ratio When Secondary Leakage Resistance Is Given Formula

voltage_transformation_ratio = sqrt(Resistance of Secondary winding in primary/(Equivalent resistance of transformer from primary-Resistance of Primary winding in Secondary))
K = sqrt(R2'/(R01-R1'))

What type of winding is used in a transformer?

In core type, we wrap the primary, and secondary windings on the outside limbs, and in shell type, we place the primary and secondary windings on the inner limbs. We use concentric type windings in core type transformer. We place a low voltage winding near the core. However, to reduce leakage reactance, windings can be interlaced.

How to Calculate Voltage Transformation Ratio When Secondary Leakage Resistance Is Given?

Voltage Transformation Ratio When Secondary Leakage Resistance Is Given calculator uses voltage_transformation_ratio = sqrt(Resistance of Secondary winding in primary/(Equivalent resistance of transformer from primary-Resistance of Primary winding in Secondary)) to calculate the Voltage Transformation Ratio, The Voltage Transformation Ratio When Secondary Leakage Resistance Is Given formula is defined as the square root of Secondary Leakage Resistance and Resistance of Secondary winding in the primary. Voltage Transformation Ratio and is denoted by K symbol.

How to calculate Voltage Transformation Ratio When Secondary Leakage Resistance Is Given using this online calculator? To use this online calculator for Voltage Transformation Ratio When Secondary Leakage Resistance Is Given, enter Resistance of Secondary winding (R2), Equivalent resistance of transformer from primary (R01) and Resistance of primary winding (R1) and hit the calculate button. Here is how the Voltage Transformation Ratio When Secondary Leakage Resistance Is Given calculation can be explained with given input values -> 2 = sqrt(4/(2-1)).

FAQ

What is Voltage Transformation Ratio When Secondary Leakage Resistance Is Given?
The Voltage Transformation Ratio When Secondary Leakage Resistance Is Given formula is defined as the square root of Secondary Leakage Resistance and Resistance of Secondary winding in the primary and is represented as K = sqrt(R2'/(R01-R1')) or voltage_transformation_ratio = sqrt(Resistance of Secondary winding in primary/(Equivalent resistance of transformer from primary-Resistance of Primary winding in Secondary)). Resistance of Secondary winding is the resistance of secondary winding, The equivalent resistance of transformer from primary side is the total resistance of primary side and Resistance of primary winding is the resistance of primary winding .
How to calculate Voltage Transformation Ratio When Secondary Leakage Resistance Is Given?
The Voltage Transformation Ratio When Secondary Leakage Resistance Is Given formula is defined as the square root of Secondary Leakage Resistance and Resistance of Secondary winding in the primary is calculated using voltage_transformation_ratio = sqrt(Resistance of Secondary winding in primary/(Equivalent resistance of transformer from primary-Resistance of Primary winding in Secondary)). To calculate Voltage Transformation Ratio When Secondary Leakage Resistance Is Given, you need Resistance of Secondary winding (R2), Equivalent resistance of transformer from primary (R01) and Resistance of primary winding (R1). With our tool, you need to enter the respective value for Resistance of Secondary winding, Equivalent resistance of transformer from primary and Resistance of primary winding 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 Voltage Transformation Ratio?
In this formula, Voltage Transformation Ratio uses Resistance of Secondary winding, Equivalent resistance of transformer from primary and Resistance of primary winding. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • voltage_transformation_ratio = Voltage2/voltage1
  • voltage_transformation_ratio = Primary Current /Secondary Current
  • voltage_transformation_ratio = EMF Induced In The Secondary Winding/EMF Induced In The Primary Winding
  • voltage_transformation_ratio = Number of Turns in Secondary winding/Number of Turns in Primary winding
  • voltage_transformation_ratio = sqrt(Reactance of Secondary in primary/Reactance of Secondary in primary)
  • voltage_transformation_ratio = sqrt(Reactance of Primary in Secondary/Reactance of Primary in Secondary)
  • voltage_transformation_ratio = sqrt(Resistance of Primary winding in Secondary/(Equivalent resistance from Secondary-Resistance of Secondary winding in primary))
  • voltage_transformation_ratio = sqrt(Resistance of Secondary winding in primary/(Equivalent resistance of transformer from primary-Resistance of Primary winding in Secondary))
  • voltage_transformation_ratio = sqrt(Resistance of Primary winding in Secondary/(Equivalent resistance from Secondary-Resistance of Secondary winding in primary))
  • voltage_transformation_ratio = sqrt((Equivalent reactance from secondary-Reactance of Secondary in primary)/Reactance of Primary in Secondary)
  • voltage_transformation_ratio = sqrt(Reactance of Secondary in primary/(Equivalent reactance from primary-Reactance of Primary in Secondary))
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