Angular Resonant Frequency of Passive Filter Solution

STEP 0: Pre-Calculation Summary
Formula Used
Angular Resonant Frequency = (Resistance*Quality Factor)/Inductance
ωn = (R*Q)/L
This formula uses 4 Variables
Variables Used
Angular Resonant Frequency - (Measured in Radian per Second) - Angular Resonant Frequency is the frequency at which the filter will resonate without any external driving force.
Resistance - (Measured in Ohm) - Resistance is the opposition to current flow in an electrical circuit.
Quality Factor - Quality Factor is a dimensionless parameter that describes how underdamped an oscillator or resonator is.
Inductance - (Measured in Henry) - Inductance is the property of an electrical conductor to oppose a change in the electric current flowing through it.
STEP 1: Convert Input(s) to Base Unit
Resistance: 149.9 Ohm --> 149.9 Ohm No Conversion Required
Quality Factor: 8.333 --> No Conversion Required
Inductance: 50 Henry --> 50 Henry No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ωn = (R*Q)/L --> (149.9*8.333)/50
Evaluating ... ...
ωn = 24.982334
STEP 3: Convert Result to Output's Unit
24.982334 Radian per Second --> No Conversion Required
FINAL ANSWER
24.982334 24.98233 Radian per Second <-- Angular Resonant Frequency
(Calculation completed in 00.004 seconds)

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Angular Resonant Frequency of Passive Filter Formula

​LaTeX ​Go
Angular Resonant Frequency = (Resistance*Quality Factor)/Inductance
ωn = (R*Q)/L

What are some factors that can affect the Angular Resonant Frequency of a passive filter?

The angular resonant frequency of a passive filter is the frequency at which the filter exhibits maximum energy transfer. It is determined by the values of the filter components, such as the inductance and capacitance of the filter.

How to Calculate Angular Resonant Frequency of Passive Filter?

Angular Resonant Frequency of Passive Filter calculator uses Angular Resonant Frequency = (Resistance*Quality Factor)/Inductance to calculate the Angular Resonant Frequency, The Angular Resonant Frequency of Passive Filter formula is defined as the frequency at which the filter resonates without any external driving force. It is determined by the values of the inductance and capacitance in the filter. Angular Resonant Frequency is denoted by ωn symbol.

How to calculate Angular Resonant Frequency of Passive Filter using this online calculator? To use this online calculator for Angular Resonant Frequency of Passive Filter, enter Resistance (R), Quality Factor (Q) & Inductance (L) and hit the calculate button. Here is how the Angular Resonant Frequency of Passive Filter calculation can be explained with given input values -> 24.98233 = (149.9*8.333)/50.

FAQ

What is Angular Resonant Frequency of Passive Filter?
The Angular Resonant Frequency of Passive Filter formula is defined as the frequency at which the filter resonates without any external driving force. It is determined by the values of the inductance and capacitance in the filter and is represented as ωn = (R*Q)/L or Angular Resonant Frequency = (Resistance*Quality Factor)/Inductance. Resistance is the opposition to current flow in an electrical circuit, Quality Factor is a dimensionless parameter that describes how underdamped an oscillator or resonator is & Inductance is the property of an electrical conductor to oppose a change in the electric current flowing through it.
How to calculate Angular Resonant Frequency of Passive Filter?
The Angular Resonant Frequency of Passive Filter formula is defined as the frequency at which the filter resonates without any external driving force. It is determined by the values of the inductance and capacitance in the filter is calculated using Angular Resonant Frequency = (Resistance*Quality Factor)/Inductance. To calculate Angular Resonant Frequency of Passive Filter, you need Resistance (R), Quality Factor (Q) & Inductance (L). With our tool, you need to enter the respective value for Resistance, Quality Factor & Inductance 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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