Self-Capacitance of Coil Calculator

✖Additional Capacitance is defined as is the ratio of the amount of electric charge stored on a conductor to a difference in electric potential.ⓘ Additional Capacitance [C_a]			+10% -10%
✖Voltmeter Capacitance refers to the inherent capacitance present in a voltmeter due to its construction and design.ⓘ Voltmeter Capacitance [C_v]			+10% -10%

✖Coil Self Capacitance refers to the inherent capacitance that exists between the turns of wire in a coil or inductor.ⓘ Self-Capacitance of Coil [C_self]

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Formula

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Self-Capacitance of Coil

Formula

`"C"_{"self"} = "C"_{"a"}-"C"_{"v"}`

Example

`"3.12F"="5.37F"-"2.25F"`

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Self-Capacitance of Coil Solution

STEP 0: Pre-Calculation Summary

Formula Used

Coil Self Capacitance = Additional Capacitance-Voltmeter Capacitance
C_self = C_a-C_v
This formula uses 3 Variables

Variables Used

Coil Self Capacitance - (Measured in Farad) - Coil Self Capacitance refers to the inherent capacitance that exists between the turns of wire in a coil or inductor.
Additional Capacitance - (Measured in Farad) - Additional Capacitance is defined as is the ratio of the amount of electric charge stored on a conductor to a difference in electric potential.
Voltmeter Capacitance - (Measured in Farad) - Voltmeter Capacitance refers to the inherent capacitance present in a voltmeter due to its construction and design.

STEP 1: Convert Input(s) to Base Unit

Additional Capacitance: 5.37 Farad --> 5.37 Farad No Conversion Required
Voltmeter Capacitance: 2.25 Farad --> 2.25 Farad No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C_self = C_a-C_v --> 5.37-2.25

Evaluating ... ...

C_self = 3.12

STEP 3: Convert Result to Output's Unit

3.12 Farad --> No Conversion Required

FINAL ANSWER

3.12 Farad <-- Coil Self Capacitance

(Calculation completed in 00.007 seconds)

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< 17 Voltmeter Specifications Calculators

Voltage Multiplying Power of Moving Iron Voltmeter

Go Multiplying Factor = sqrt(((Meter Internal Resistance+Series Resistance)^2+(Angular Frequency*Inductance)^2)/((Meter Internal Resistance)^2+(Angular Frequency*Inductance)^2))

Deflection Angle of Electrodynamometer Voltmeter

Go Deflection Angle = (Total Voltage^2*Mutual Inductance Change with Angle*cos(Phase Difference))/(Spring Constant*Impedance^2)

Voltage of Moving Iron Voltmeter

Go Voltage = Meter Current*sqrt((Meter Internal Resistance+Series Resistance)^2+(Angular Frequency*Inductance)^2)

Deflecting Torque of Electrodynamometer Voltmeter

Go Deflecting Torque = (Total Voltage/Impedance)^2*Mutual Inductance Change with Angle*cos(Phase Difference)

Voltage across Capacitance while Charging

Go Voltage across Capacitance = Voltage*(1-exp(-Time/(Resistance*Capacitance)))

Voltage across Capacitance

Go Voltage across Capacitance = Voltage*exp(-Time/(Resistance*Capacitance))

Nth resistance in multi-range voltmeter

Go Nth Multiplier Resistance = (Nth Multiplying Factor-Penultimate Voltage Multiplying Factor)*Meter Internal Resistance

Voltmeter Resistance

Go Voltmeter Resistance = (Voltmeter Range-Current Magnitude*Resistance)/Current Magnitude

Multiplier Resistance of PMMC based Voltmeter

Go Multiplier Resistance = (Voltage/Full Scale Deflection Current)-Meter Internal Resistance

Range of Voltmeter

Go Voltmeter Range = Current Magnitude*(Voltmeter Resistance+Resistance)

Voltmeter current

Go Current Magnitude = (Voltmeter Range-Resistance)/Voltmeter Resistance

Multiplying Factor for Multiplier Voltmeter

Go Multiplying Factor = 1+(Multiplier Resistance/Meter Internal Resistance)

Self-Capacitance of Coil

Go Coil Self Capacitance = Additional Capacitance-Voltmeter Capacitance

Capacitance of Voltmeter

Go Voltmeter Capacitance = Additional Capacitance-Coil Self Capacitance

Additional Capacitance

Go Additional Capacitance = Coil Self Capacitance+Voltmeter Capacitance

Volts per Division

Go Volt per Division = Peak Voltage/Vertical Peak to Peak Division

Voltmeter Sensitivity

Go Voltmeter Sensitivity = 1/Full Scale Deflection Current

Self-Capacitance of Coil Formula

Coil Self Capacitance = Additional Capacitance-Voltmeter Capacitance
C_self = C_a-C_v

What is capacitance of a conductor?

Capacitance, property of an electric conductor, or set of conductors, that is measured by the amount of separated electric charge that can be stored on it per unit change in electrical potential.

How to Calculate Self-Capacitance of Coil?

Self-Capacitance of Coil calculator uses Coil Self Capacitance = Additional Capacitance-Voltmeter Capacitance to calculate the Coil Self Capacitance, The Self-Capacitance of Coil formula is defined as a single-layer air-core coil that is directly proportional to its diameter. Coil Self Capacitance is denoted by C_self symbol.

How to calculate Self-Capacitance of Coil using this online calculator? To use this online calculator for Self-Capacitance of Coil, enter Additional Capacitance (C_a) & Voltmeter Capacitance (C_v) and hit the calculate button. Here is how the Self-Capacitance of Coil calculation can be explained with given input values -> 27.75 = 5.37-2.25.

FAQ

What is Self-Capacitance of Coil?

The Self-Capacitance of Coil formula is defined as a single-layer air-core coil that is directly proportional to its diameter and is represented as C_self = C_a-C_v or Coil Self Capacitance = Additional Capacitance-Voltmeter Capacitance. Additional Capacitance is defined as is the ratio of the amount of electric charge stored on a conductor to a difference in electric potential & Voltmeter Capacitance refers to the inherent capacitance present in a voltmeter due to its construction and design.

How to calculate Self-Capacitance of Coil?

The Self-Capacitance of Coil formula is defined as a single-layer air-core coil that is directly proportional to its diameter is calculated using Coil Self Capacitance = Additional Capacitance-Voltmeter Capacitance. To calculate Self-Capacitance of Coil, you need Additional Capacitance (C_a) & Voltmeter Capacitance (C_v). With our tool, you need to enter the respective value for Additional Capacitance & Voltmeter Capacitance 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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