Quality Factor of Cavity Resonator Solution

STEP 0: Pre-Calculation Summary
Formula Used
Q factor of Cavity Resonator = Resonant Frequency/(Frequency 2-Frequency 1)
Qc = ωr/(f2-f1)
This formula uses 4 Variables
Variables Used
Q factor of Cavity Resonator - Q factor of Cavity Resonator is defined as the ratio of the energy stored in the resonator to the energy lost per cycle.
Resonant Frequency - (Measured in Hertz) - Resonant frequency is the oscillation of a system at its natural or unforced resonance.
Frequency 2 - (Measured in Hertz) - Frequency 2 is the number of occurrences of a repeating event per unit of time.
Frequency 1 - (Measured in Hertz) - Frequency 1 is the number of occurrences of a repeating event per unit of time.
STEP 1: Convert Input(s) to Base Unit
Resonant Frequency: 118 Hertz --> 118 Hertz No Conversion Required
Frequency 2: 300 Hertz --> 300 Hertz No Conversion Required
Frequency 1: 280 Hertz --> 280 Hertz No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Qc = ωr/(f2-f1) --> 118/(300-280)
Evaluating ... ...
Qc = 5.9
STEP 3: Convert Result to Output's Unit
5.9 --> No Conversion Required
FINAL ANSWER
5.9 <-- Q factor of Cavity Resonator
(Calculation completed in 00.004 seconds)

Credits

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Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
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14 Q-Factor Calculators

Q-Factor of Loaded Resonator Circuit
Go Q Factor of Loaded Resonator Circuit = (Resonant Angular Frequency*Capacitance at Vane Tips)/(Resonator Conductance+Conductance of Cavity)
Q-Factor of External Load
Go Q Factor of External Load = 1/(Q Factor of Loaded Catcher Cavity-(1/Q Factor of Beam Loading)-(1/Q Factor of Catcher Wall))
Q-Factor of Catcher Wall
Go Q Factor of Catcher Wall = 1/(Q Factor of Loaded Catcher Cavity-(1/Q Factor of Beam Loading)-(1/Q Factor of External Load))
Q-Factor of Beam Loading
Go Q Factor of Beam Loading = 1/(Q Factor of Loaded Catcher Cavity-(1/Q Factor of Catcher Wall)-(1/Q Factor of External Load))
Q-Factor of Loaded Catcher Cavity
Go Q Factor of Loaded Catcher Cavity = (1/Q Factor of Catcher Wall)+(1/Q Factor of Beam Loading)+(1/Q Factor of External Load)
Q-Factor of Microstrip Lines given Height and Frequency
Go Q-Factor of Microstrip Lines = 0.63*Height*sqrt(Conductivity*Frequency)
Resonant Angular Frequency given Q-External
Go Resonant Angular Frequency = (Loaded Conductance*External Q-Factor)/Capacitance at Vane Tips
Load Conductance given Q-External
Go Loaded Conductance = (Resonant Angular Frequency*Capacitance at Vane Tips)/External Q-Factor
External Q-Factor
Go External Q-Factor = (Capacitance at Vane Tips*Resonant Angular Frequency)/Loaded Conductance
Unloaded Q-factor
Go Unloaded Q-factor = Capacitance at Vane Tips*Angular Frequency/Conductance of Cavity
Quality Factor of Cavity Resonator
Go Q factor of Cavity Resonator = Resonant Frequency/(Frequency 2-Frequency 1)
Q-Factor for Copper Strip
Go Q-Factor of Copper Strip Lines = 4780*Height*sqrt(Frequency)
Q-Factor of Wide Microstrip Lines
Go Q-Factor of Microstrip Lines = 27.3/Conductor Attenuation Constant
Q-Factor given Dielectric Attenuation Constant
Go Q-Factor = 27.3/Dielectric Attenuation Constant

Quality Factor of Cavity Resonator Formula

Q factor of Cavity Resonator = Resonant Frequency/(Frequency 2-Frequency 1)
Qc = ωr/(f2-f1)

What is Resonant Circuit?

An electric circuit which has very low impedance at a certain frequency. Resonant circuits are often built using an inductor, such as a coil, connected in parallel to a capacitor.

How to Calculate Quality Factor of Cavity Resonator?

Quality Factor of Cavity Resonator calculator uses Q factor of Cavity Resonator = Resonant Frequency/(Frequency 2-Frequency 1) to calculate the Q factor of Cavity Resonator, The Quality Factor of Cavity Resonator formula is defined as the ratio between the stored energy of the cavity to the power loses in the cavity. If the size of the cavity is made bigger then energy stored will be more and its Q will increase. It is a measure of its efficiency and is defined as the ratio of its stored energy to its energy dissipation per cycle. Q factor of Cavity Resonator is denoted by Qc symbol.

How to calculate Quality Factor of Cavity Resonator using this online calculator? To use this online calculator for Quality Factor of Cavity Resonator, enter Resonant Frequency r), Frequency 2 (f2) & Frequency 1 (f1) and hit the calculate button. Here is how the Quality Factor of Cavity Resonator calculation can be explained with given input values -> 5.9 = 118/(300-280).

FAQ

What is Quality Factor of Cavity Resonator?
The Quality Factor of Cavity Resonator formula is defined as the ratio between the stored energy of the cavity to the power loses in the cavity. If the size of the cavity is made bigger then energy stored will be more and its Q will increase. It is a measure of its efficiency and is defined as the ratio of its stored energy to its energy dissipation per cycle and is represented as Qc = ωr/(f2-f1) or Q factor of Cavity Resonator = Resonant Frequency/(Frequency 2-Frequency 1). Resonant frequency is the oscillation of a system at its natural or unforced resonance, Frequency 2 is the number of occurrences of a repeating event per unit of time & Frequency 1 is the number of occurrences of a repeating event per unit of time.
How to calculate Quality Factor of Cavity Resonator?
The Quality Factor of Cavity Resonator formula is defined as the ratio between the stored energy of the cavity to the power loses in the cavity. If the size of the cavity is made bigger then energy stored will be more and its Q will increase. It is a measure of its efficiency and is defined as the ratio of its stored energy to its energy dissipation per cycle is calculated using Q factor of Cavity Resonator = Resonant Frequency/(Frequency 2-Frequency 1). To calculate Quality Factor of Cavity Resonator, you need Resonant Frequency r), Frequency 2 (f2) & Frequency 1 (f1). With our tool, you need to enter the respective value for Resonant Frequency, Frequency 2 & Frequency 1 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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