Voltage Sensitivity of Galvanometer Calculator

✖Deflection Angle refers to the angle through which the needle or pointer of the instrument moves in response to an applied current or voltage.ⓘ Deflection Angle [θ_d]			+10% -10%
✖Potential Difference also known as voltage, is the external work needed to bring a charge from one location to another location in an electric field.ⓘ Potential Difference [V]			+10% -10%

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

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Formula

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Voltage Sensitivity of Galvanometer

Formula

`"Vs" = ("θ"_{"d"}*(180/pi))/"V"`

Example

`"0.61111"=("0.191986rad"*(180/pi))/"18V"`

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Voltage Sensitivity of Galvanometer Solution

STEP 0: Pre-Calculation Summary

Formula Used

Voltage Sensitivity of Galvanometer = (Deflection Angle*(180/pi))/Potential Difference
Vs = (θ_d*(180/pi))/V
This formula uses 1 Constants, 3 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Voltage Sensitivity of Galvanometer - Voltage Sensitivity of Galvanometer 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 refers to the angle through which the needle or pointer of the instrument moves in response to an applied current or voltage.
Potential Difference - (Measured in Volt) - Potential Difference also known as voltage, is the external work needed to bring a charge from one location to another location in an electric field.

STEP 1: Convert Input(s) to Base Unit

Deflection Angle: 0.191986 Radian --> 0.191986 Radian No Conversion Required
Potential Difference: 18 Volt --> 18 Volt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Vs = (θ_d*(180/pi))/V --> (0.191986*(180/pi))/18

Evaluating ... ...

Vs = 0.611110418088812

STEP 3: Convert Result to Output's Unit

0.611110418088812 --> No Conversion Required

FINAL ANSWER

0.611110418088812 ≈ 0.61111 <-- Voltage Sensitivity of Galvanometer

(Calculation completed in 00.020 seconds)

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< 11 Galvanometer Calculators

Instantaneous Deflecting Torque

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

Average Current through Galvanometer

Go Total Current = (2*Number of Turns*Magnetic Flux)/(Time*Resistance)

Voltage Sensitivity of Galvanometer

Go Voltage Sensitivity of Galvanometer = (Deflection Angle*(180/pi))/Potential Difference

Deflection in Galvanometer

Go Deflection Angle = (Potential Difference*Voltage Sensitivity of Galvanometer)*(pi/180)

EMF across Galvanometer

Go EMF = Resistance*(((Current 1)^2)-((Current 2)^2))

Angle of Deflection of Pointer

Go Galvanometer Deflection Angle = Pointer Deflection/Controlling Torque

Deflection of Pointer

Go Pointer Deflection = Galvanometer Deflection Angle*Controlling Torque

Naturally linkage Sensitivity

Go Natural Linkage Sensitivity = Flux Linkage Sensitivity/Resistance

Throw of Galvanometer

Go Throw of Galvanometer = Ballistic Sensitivity*Flux Charge

Constant of Galvanometer

Go Galvanometer Constant = Charge/Throw of Galvanometer

Ballistic Sensitivity

Go Ballistic Sensitivity = Throw of Galvanometer/Charge

Voltage Sensitivity of Galvanometer Formula

Voltage Sensitivity of Galvanometer = (Deflection Angle*(180/pi))/Potential Difference
Vs = (θ_d*(180/pi))/V

What is potential free contact? What is the significance and application of this contact?

Contacts having not potential. E.g. Relay contacts/ field switches contacts. They are used in logic circuits. A potential-free contact is usually wired into an electrical circuit. However, it must be ensured that the contact ratings are suitable for the service in which it is used.

How to Calculate Voltage Sensitivity of Galvanometer?

Voltage Sensitivity of Galvanometer calculator uses Voltage Sensitivity of Galvanometer = (Deflection Angle*(180/pi))/Potential Difference to calculate the 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. Voltage Sensitivity of Galvanometer is denoted by Vs 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) & Potential Difference (V) and hit the calculate button. Here is how the Voltage Sensitivity of Galvanometer calculation can be explained with given input values -> 0.61111 = (0.191986*(180/pi))/18.

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 Vs = (θ_d*(180/pi))/V or Voltage Sensitivity of Galvanometer = (Deflection Angle*(180/pi))/Potential Difference. Deflection Angle refers to the angle through which the needle or pointer of the instrument moves in response to an applied current or voltage & Potential Difference also known as voltage, is the external work needed to bring a charge from one location to another location in an electric field.

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 of Galvanometer = (Deflection Angle*(180/pi))/Potential Difference. To calculate Voltage Sensitivity of Galvanometer, you need Deflection Angle (θ_d) & Potential Difference (V). With our tool, you need to enter the respective value for Deflection Angle & Potential Difference 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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