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Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants Formula

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Total Resistance is the total opposition caused in the flow of current. Check FAQs

R t = (\frac{1}{R b} + \frac{1}{R i}) + R s

R_t - Total Resistance?R_b - Base Resistance?R_i - Input Resistance?R_s - Signal Resistance?

Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants Example

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Here is how the Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants equation looks like with Values.

Here is how the Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants equation looks like with Units.

Here is how the Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants equation looks like.

4.7 = (\frac{1}{14} + \frac{1}{16}) + 4.7

4.7kΩ = (\frac{1}{14kΩ} + \frac{1}{16kΩ}) + 4.7kΩ

4.7 = (\frac{1}{14} + \frac{1}{16}) + 4.7

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Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants Solution

Follow our step by step solution on how to calculate Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants?

FIRST Step Consider the formula

R t = (\frac{1}{R b} + \frac{1}{R i}) + R s

Next Step Substitute values of Variables

∴

R t = (\frac{1}{14kΩ} + \frac{1}{16kΩ}) + 4.7kΩ

Next Step Convert Units

∴

R t = (\frac{1}{14000Ω} + \frac{1}{16000Ω}) + 4700Ω

Next Step Prepare to Evaluate

∴

R t = (\frac{1}{14000} + \frac{1}{16000}) + 4700

Next Step Evaluate

∴

R t = 4700.00013392857Ω

Next Step Convert to Output's Unit

∴

R t = 4.70000013392857kΩ

LAST Step Rounding Answer

∴

R t = 4.7kΩ

Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants Formula Elements

Variables

Total Resistance

Total Resistance is the total opposition caused in the flow of current.

Symbol: R_t

Measurement: Electric ResistanceUnit: kΩ

Note: Value should be greater than 0.

Formulas to find Total Resistance

Base Resistance

Base resistance is the resistance of the base junction.

Symbol: R_b

Measurement: Electric ResistanceUnit: kΩ

Note: Value should be greater than 0.

Formulas to find Base Resistance

Input Resistance

Input resistance is the value of internal resistance of source.

Symbol: R_i

Measurement: Electric ResistanceUnit: kΩ

Note: Value should be greater than 0.

Formulas to find Input Resistance

Signal Resistance

Signal Resistance is the resistance which is fed with the signal voltage source V_s to an Amplifier.

Symbol: R_s

Measurement: Electric ResistanceUnit: kΩ

Note: Value should be greater than 0.

Formulas to find Signal Resistance

Other formulas in Response of CE Amplifier category

Go Time Constant Associated with Cc1 using Method Short-Circuit Time Constants

𝜏 = C C1 \cdot R' 1

Go Time Constant of CE Amplifier

𝜏 = C C1 \cdot R 1

How to Evaluate Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants?

Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants evaluator uses Total Resistance = (1/Base Resistance+1/Input Resistance)+Signal Resistance to evaluate the Total Resistance, The Resistance due to capacitor Cc1 using method short-circuit time constants formula is defined as a measure of the opposition to current flow in an electrical circuit. Total Resistance is denoted by R_t symbol.

How to evaluate Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants using this online evaluator? To use this online evaluator for Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants, enter Base Resistance (R_b), Input Resistance (R_i) & Signal Resistance (R_s) and hit the calculate button.

FAQs on Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants

What is the formula to find Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants?

The formula of Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants is expressed as Total Resistance = (1/Base Resistance+1/Input Resistance)+Signal Resistance. Here is an example- 0.0047 = (1/14000+1/16000)+4700.

How to calculate Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants?

With Base Resistance (R_b), Input Resistance (R_i) & Signal Resistance (R_s) we can find Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants using the formula - Total Resistance = (1/Base Resistance+1/Input Resistance)+Signal Resistance.

Can the Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants be negative?

No, the Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants, measured in Electric Resistance cannot be negative.

Which unit is used to measure Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants?

Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants is usually measured using the Kilohm[kΩ] for Electric Resistance. Ohm[kΩ], Megohm[kΩ], Microhm[kΩ] are the few other units in which Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants can be measured.

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Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants Formula

Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants Example

Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants Solution

Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants Formula Elements

Other formulas in Response of CE Amplifier category

How to Evaluate Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants?

FAQs on Resistance due to Capacitor CC1 using Method Short-Circuit Time Constants

Variable Name