Transformation Ratio given Primary and Secondary Induced Voltage Solution

STEP 0: Pre-Calculation Summary
Formula Used
Transformation Ratio = EMF Induced in Secondary/EMF Induced in Primary
K = E2/E1
This formula uses 3 Variables
Variables Used
Transformation Ratio - The Transformation Ratio of the transformer is used to find the relation between primary voltage and secondary voltage.
EMF Induced in Secondary - (Measured in Volt) - EMF Induced in Secondary Winding is the production of voltage in a coil because of the change in magnetic flux through a coil.
EMF Induced in Primary - (Measured in Volt) - EMF Induced in Primary Winding is the production of voltage in a coil because of the change in magnetic flux through a coil.
STEP 1: Convert Input(s) to Base Unit
EMF Induced in Secondary: 15.84 Volt --> 15.84 Volt No Conversion Required
EMF Induced in Primary: 13.2 Volt --> 13.2 Volt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
K = E2/E1 --> 15.84/13.2
Evaluating ... ...
K = 1.2
STEP 3: Convert Result to Output's Unit
1.2 --> No Conversion Required
FINAL ANSWER
1.2 <-- Transformation Ratio
(Calculation completed in 00.004 seconds)

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Created by Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
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National Institute of Technology (NIT), Jamshedpur
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10+ Transformation Ratio Calculators

Transformation Ratio given Equivalent Reactance from Secondary Side
Go Transformation Ratio = sqrt((Equivalent Reactance from Secondary-Secondary Leakage Reactance)/Primary Leakage Reactance)
Transformation Ratio given Equivalent Reactance from Primary Side
Go Transformation Ratio = sqrt(Secondary Leakage Reactance/(Equivalent Reactance from Primary-Primary Leakage Reactance))
Transformation Ratio given Equivalent Resistance from Secondary Side
Go Transformation Ratio = sqrt((Equivalent Resistance from Secondary-Resistance of Secondary)/Resistance of Primary)
Transformation Ratio given Equivalent Resistance from Primary Side
Go Transformation Ratio = sqrt(Resistance of Secondary/(Equivalent Resistance from Primary-Resistance of Primary))
Transformation Ratio given Secondary Leakage Reactance
Go Transformation Ratio = sqrt(Secondary Leakage Reactance/Reactance of Secondary in Primary)
Transformation Ratio given Primary Leakage Reactance
Go Transformation Ratio = sqrt(Reactance of Primary in Secondary/Primary Leakage Reactance)
Transformation Ratio given Primary and Secondary Number of Turns
Go Transformation Ratio = Number of Turns in Secondary/Number of Turns in Primary
Transformation Ratio given Primary and Secondary Induced Voltage
Go Transformation Ratio = EMF Induced in Secondary/EMF Induced in Primary
Transformation Ratio given Primary and Secondary Voltage
Go Transformation Ratio = Secondary Voltage/Primary Voltage
Transformation Ratio given Primary and Secondary Current
Go Transformation Ratio = Primary Current/Secondary Current

Transformation Ratio given Primary and Secondary Induced Voltage Formula

Transformation Ratio = EMF Induced in Secondary/EMF Induced in Primary
K = E2/E1

Is the ratio between turns and voltage the same in the transformer?

Transformers are all about “ratios”. The ratio of the primary to the secondary, the ratio of the input to the output, and the turns ratio of any given transformer will be the same as its voltage ratio. the ratio between the number of turns changes the resulting voltages must also change by the same ratio.

How to Calculate Transformation Ratio given Primary and Secondary Induced Voltage?

Transformation Ratio given Primary and Secondary Induced Voltage calculator uses Transformation Ratio = EMF Induced in Secondary/EMF Induced in Primary to calculate the Transformation Ratio, The Transformation Ratio given Primary and Secondary Induced Voltage formula is defined as the ratio of the EMF in the secondary coil to that in the primary coil. Transformation Ratio is denoted by K symbol.

How to calculate Transformation Ratio given Primary and Secondary Induced Voltage using this online calculator? To use this online calculator for Transformation Ratio given Primary and Secondary Induced Voltage, enter EMF Induced in Secondary (E2) & EMF Induced in Primary (E1) and hit the calculate button. Here is how the Transformation Ratio given Primary and Secondary Induced Voltage calculation can be explained with given input values -> 1.2 = 15.84/13.2.

FAQ

What is Transformation Ratio given Primary and Secondary Induced Voltage?
The Transformation Ratio given Primary and Secondary Induced Voltage formula is defined as the ratio of the EMF in the secondary coil to that in the primary coil and is represented as K = E2/E1 or Transformation Ratio = EMF Induced in Secondary/EMF Induced in Primary. EMF Induced in Secondary Winding is the production of voltage in a coil because of the change in magnetic flux through a coil & EMF Induced in Primary Winding is the production of voltage in a coil because of the change in magnetic flux through a coil.
How to calculate Transformation Ratio given Primary and Secondary Induced Voltage?
The Transformation Ratio given Primary and Secondary Induced Voltage formula is defined as the ratio of the EMF in the secondary coil to that in the primary coil is calculated using Transformation Ratio = EMF Induced in Secondary/EMF Induced in Primary. To calculate Transformation Ratio given Primary and Secondary Induced Voltage, you need EMF Induced in Secondary (E2) & EMF Induced in Primary (E1). With our tool, you need to enter the respective value for EMF Induced in Secondary & EMF Induced in Primary 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 Transformation Ratio?
In this formula, Transformation Ratio uses EMF Induced in Secondary & EMF Induced in Primary. We can use 9 other way(s) to calculate the same, which is/are as follows -
  • Transformation Ratio = sqrt(Resistance of Secondary/(Equivalent Resistance from Primary-Resistance of Primary))
  • Transformation Ratio = sqrt((Equivalent Resistance from Secondary-Resistance of Secondary)/Resistance of Primary)
  • Transformation Ratio = sqrt((Equivalent Reactance from Secondary-Secondary Leakage Reactance)/Primary Leakage Reactance)
  • Transformation Ratio = sqrt(Secondary Leakage Reactance/(Equivalent Reactance from Primary-Primary Leakage Reactance))
  • Transformation Ratio = Secondary Voltage/Primary Voltage
  • Transformation Ratio = Primary Current/Secondary Current
  • Transformation Ratio = Number of Turns in Secondary/Number of Turns in Primary
  • Transformation Ratio = sqrt(Secondary Leakage Reactance/Reactance of Secondary in Primary)
  • Transformation Ratio = sqrt(Reactance of Primary in Secondary/Primary Leakage Reactance)
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