Capacitance of Specimen Calculator

✖Effective Capacitance is resultant capacitance between third arm of the Schering Bridge and the capacitance due to space between specimen and dielectric.ⓘ Effective Capacitance [C]			+10% -10%
✖Capacitance between Specimen and Dielectric is the capacitance due to space between Specimen and dielectric material.ⓘ Capacitance between Specimen and Dielectric [C_o]			+10% -10%

✖Specimen Capacitance is defined as the capacitance of the given specimen or of the given electronic component.ⓘ Capacitance of Specimen [C_s]

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Capacitance of Specimen Solution

STEP 0: Pre-Calculation Summary

Formula Used

Specimen Capacitance = (Effective Capacitance*Capacitance between Specimen and Dielectric)/(Capacitance between Specimen and Dielectric-Effective Capacitance)
C_s = (C*C_o)/(C_o-C)
This formula uses 3 Variables

Variables Used

Specimen Capacitance - (Measured in Farad) - Specimen Capacitance is defined as the capacitance of the given specimen or of the given electronic component.
Effective Capacitance - (Measured in Farad) - Effective Capacitance is resultant capacitance between third arm of the Schering Bridge and the capacitance due to space between specimen and dielectric.
Capacitance between Specimen and Dielectric - (Measured in Farad) - Capacitance between Specimen and Dielectric is the capacitance due to space between Specimen and dielectric material.

STEP 1: Convert Input(s) to Base Unit

Effective Capacitance: 2.71 Microfarad --> 2.71E-06 Farad (Check conversion here)
Capacitance between Specimen and Dielectric: 4.7 Microfarad --> 4.7E-06 Farad (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C_s = (C*C_o)/(C_o-C) --> (2.71E-06*4.7E-06)/(4.7E-06-2.71E-06)

Evaluating ... ...

C_s = 6.40050251256281E-06

STEP 3: Convert Result to Output's Unit

6.40050251256281E-06 Farad -->6.40050251256281 Microfarad (Check conversion here)

FINAL ANSWER

6.40050251256281 ≈ 6.400503 Microfarad <-- Specimen Capacitance

(Calculation completed in 00.020 seconds)

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< Schering Bridge Calculators

Unknown Resistance in Schering Bridge

LaTeX Go Series Resistance 1 in Schering Bridge = (Known Capacitance 4 in Schering Bridge/Known Capacitance 2 in Schering Bridge)*Known Resistance 3 in Schering Bridge

Unknown Capacitance in Schering Bridge

LaTeX Go Unknown Capacitance in Schering Bridge = (Known Resistance 4 in Schering Bridge/Known Resistance 3 in Schering Bridge)*Known Capacitance 2 in Schering Bridge

Effective Area of Electrode in Schering Bridge

LaTeX Go Electrode Effective Area = (Specimen Capacitance*Spacing between Electrodes)/(Relative Permittivity*[Permitivity-vacuum])

Dissipation Factor in Schering Bridge

LaTeX Go Dissipation Factor in Schering Bridge = Angular Frequency*Known Capacitance 4 in Schering Bridge*Known Resistance 4 in Schering Bridge

Capacitance of Specimen Formula

LaTeX Go

Specimen Capacitance = (Effective Capacitance*Capacitance between Specimen and Dielectric)/(Capacitance between Specimen and Dielectric-Effective Capacitance)
C_s = (C*C_o)/(C_o-C)

What is Schering Bridge?

The Schering Bridge is an AC (alternating current) bridge circuit used to measure the capacitance and dissipation factor (dielectric loss) of a capacitor. It is particularly useful for testing the quality of high-voltage capacitors and insulating materials.

How to Calculate Capacitance of Specimen?

Capacitance of Specimen calculator uses Specimen Capacitance = (Effective Capacitance*Capacitance between Specimen and Dielectric)/(Capacitance between Specimen and Dielectric-Effective Capacitance) to calculate the Specimen Capacitance, The Capacitance of Specimen as Dielectric1 formula is defined the capacitance of the given specimen or of the given electronic component whose relative permittivity is to be calculated. Specimen Capacitance is denoted by C_s symbol.

How to calculate Capacitance of Specimen using this online calculator? To use this online calculator for Capacitance of Specimen, enter Effective Capacitance (C) & Capacitance between Specimen and Dielectric (C_o) and hit the calculate button. Here is how the Capacitance of Specimen calculation can be explained with given input values -> 6.4E+6 = (2.71E-06*4.7E-06)/(4.7E-06-2.71E-06).

FAQ

What is Capacitance of Specimen?

The Capacitance of Specimen as Dielectric1 formula is defined the capacitance of the given specimen or of the given electronic component whose relative permittivity is to be calculated and is represented as C_s = (C*C_o)/(C_o-C) or Specimen Capacitance = (Effective Capacitance*Capacitance between Specimen and Dielectric)/(Capacitance between Specimen and Dielectric-Effective Capacitance). Effective Capacitance is resultant capacitance between third arm of the Schering Bridge and the capacitance due to space between specimen and dielectric & Capacitance between Specimen and Dielectric is the capacitance due to space between Specimen and dielectric material.

How to calculate Capacitance of Specimen?

The Capacitance of Specimen as Dielectric1 formula is defined the capacitance of the given specimen or of the given electronic component whose relative permittivity is to be calculated is calculated using Specimen Capacitance = (Effective Capacitance*Capacitance between Specimen and Dielectric)/(Capacitance between Specimen and Dielectric-Effective Capacitance). To calculate Capacitance of Specimen, you need Effective Capacitance (C) & Capacitance between Specimen and Dielectric (C_o). With our tool, you need to enter the respective value for Effective Capacitance & Capacitance between Specimen and Dielectric 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 Specimen Capacitance?

In this formula, Specimen Capacitance uses Effective Capacitance & Capacitance between Specimen and Dielectric. We can use 1 other way(s) to calculate the same, which is/are as follows -

Specimen Capacitance = (Relative Permittivity*[Permitivity-vacuum]*Electrode Effective Area)/(Spacing between Electrodes)

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