Voltage Sensitivity of Galvanometer Calculator

✖Deflection Angle is the value indicated on a scale by a pointer that is connected to the suspension wire.ⓘ Deflection Angle [θ_d]			+10% -10%
✖Voltage across Galvanometer refers to the potential drop between the ends of the galvanometer that occurs when a current flows through it.ⓘ Voltage across Galvanometer [V]			+10% -10%

✖Voltage Sensitivity is defined as the deflection produced in the galvanometer when a unit voltage is applied across two terminals.ⓘ Voltage Sensitivity of Galvanometer [S_v]

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Formula

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Voltage Sensitivity of Galvanometer

Formula

`"S"_{"v"} = "θ"_{"d"}/"V"`

Example

`"0.104667"="1.57rad"/"15V"`

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Voltage Sensitivity of Galvanometer Solution

STEP 0: Pre-Calculation Summary

Formula Used

Voltage Sensitivity = Deflection Angle/Voltage across Galvanometer
S_v = θ_d/V
This formula uses 3 Variables

Variables Used

Voltage Sensitivity - Voltage Sensitivity is defined as the deflection produced in the galvanometer when a unit voltage is applied across two terminals.
Deflection Angle - (Measured in Radian) - Deflection Angle is the value indicated on a scale by a pointer that is connected to the suspension wire.
Voltage across Galvanometer - (Measured in Volt) - Voltage across Galvanometer refers to the potential drop between the ends of the galvanometer that occurs when a current flows through it.

STEP 1: Convert Input(s) to Base Unit

Deflection Angle: 1.57 Radian --> 1.57 Radian No Conversion Required
Voltage across Galvanometer: 15 Volt --> 15 Volt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

S_v = θ_d/V --> 1.57/15

Evaluating ... ...

S_v = 0.104666666666667

STEP 3: Convert Result to Output's Unit

0.104666666666667 --> No Conversion Required

FINAL ANSWER

0.104666666666667 ≈ 0.104667 <-- Voltage Sensitivity

(Calculation completed in 00.004 seconds)

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Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat

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< 17 Galvanometer Calculators

Instantaneous Deflecting Torque

Go Instantaneous Deflecting Torque = Resistance*Spring Constant*(Current 1^2-Current 2^2)

Average Current through Galvanometer

Go Electric Current = (2*Coil Turns*Magnetic Flux)/(Time*Resistance)

Current Sensitivity of Galvanometer

Go Current Sensitivity = Voltage Sensitivity*(Resistance+Galvanometer Resistance)

EMF across Galvanometer

Go Voltage across Galvanometer = Resistance*(Current 1-Current 2)

Length of Solenoid

Go Solenoid Length = (Electric Current*Coil Turns)/Magnetic Field

Voltage Sensitivity of Galvanometer

Go Voltage Sensitivity = Deflection Angle/Voltage across Galvanometer

Voltage across Galvanometer

Go Voltage across Galvanometer = Deflection Angle/Voltage Sensitivity

Deflection in Galvanometer

Go Deflection Angle = Voltage across Galvanometer*Voltage Sensitivity

Area of Secondary Coil

Go Secondary Coil Area = Secondary Coil Flux Linkage/Magnetic Field

Ballistic Sensitivity using Flux Linkage Sensitivity

Go Ballistic Sensitivity = Flux Linkage Sensitivity*Resistance

Final Steady Deflection in Galvanometer

Go Deflection Angle = Controlling Torque/Spring Constant

Spring Constant in Galvanometer

Go Spring Constant = Controlling Torque/Deflection Angle

Controlling Torque

Go Controlling Torque = Spring Constant*Deflection Angle

Charge passing through Galvanometer

Go Charge = Galvanometer Throw/Ballistic Sensitivity

Constant of Galvanometer

Go Galvanometer Constant = Charge/Galvanometer Throw

Throw of Galvanometer

Go Galvanometer Throw = Ballistic Sensitivity*Charge

Ballistic Sensitivity

Go Ballistic Sensitivity = Galvanometer Throw/Charge

Voltage Sensitivity of Galvanometer Formula

Voltage Sensitivity = Deflection Angle/Voltage across Galvanometer
S_v = θ_d/V

What is a Galvanometer?

A galvanometer is an electromechanical instrument used to detect and measure small electric currents. It operates on the principle that a current-carrying conductor placed within a magnetic field experiences a mechanical force, which can be translated into a deflection that can be measured.

How to Calculate Voltage Sensitivity of Galvanometer?

Voltage Sensitivity of Galvanometer calculator uses Voltage Sensitivity = Deflection Angle/Voltage across Galvanometer to calculate the Voltage Sensitivity, The Voltage Sensitivity of Galvanometer formula is defined as the Voltage Sensitivity of a galvanometer is defined as the deflection produced in the galvanometer when a unit voltage is applied across two terminals. Voltage Sensitivity is denoted by S_v symbol.

How to calculate Voltage Sensitivity of Galvanometer using this online calculator? To use this online calculator for Voltage Sensitivity of Galvanometer, enter Deflection Angle (θ_d) & Voltage across Galvanometer (V) and hit the calculate button. Here is how the Voltage Sensitivity of Galvanometer calculation can be explained with given input values -> 0.104667 = 1.57/15.

FAQ

What is Voltage Sensitivity of Galvanometer?

The Voltage Sensitivity of Galvanometer formula is defined as the Voltage Sensitivity of a galvanometer is defined as the deflection produced in the galvanometer when a unit voltage is applied across two terminals and is represented as S_v = θ_d/V or Voltage Sensitivity = Deflection Angle/Voltage across Galvanometer. Deflection Angle is the value indicated on a scale by a pointer that is connected to the suspension wire & Voltage across Galvanometer refers to the potential drop between the ends of the galvanometer that occurs when a current flows through it.

How to calculate Voltage Sensitivity of Galvanometer?

The Voltage Sensitivity of Galvanometer formula is defined as the Voltage Sensitivity of a galvanometer is defined as the deflection produced in the galvanometer when a unit voltage is applied across two terminals is calculated using Voltage Sensitivity = Deflection Angle/Voltage across Galvanometer. To calculate Voltage Sensitivity of Galvanometer, you need Deflection Angle (θ_d) & Voltage across Galvanometer (V). With our tool, you need to enter the respective value for Deflection Angle & Voltage across Galvanometer 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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