Search results
Our capacitive reactance calculator helps you determine the impedance of a capacitor if its capacitance value (C) and the frequency of the signal passing through it (f) are given. You can input the capacitance in farads, microfarads, nanofarads, or picofarads.
- Coax Impedance Calculator
Coaxial cables typically have a lower impedance compared to...
- LC Resonant Frequency Calculator
A circuit with an inductor (L) and capacitor (C) connected...
- Wheatstone Bridge Calculator
This calculator with either solve for V out in the figure...
- Electrical Energy Calculator
This calculator may also be useful when finding the energy...
- Coax Impedance Calculator
An online calculator to calculate the impedance of a capacitor given the capacitance and the frequency.
How to Use the Calculator. Enter Capacitance (C): Input the capacitance of the capacitor in farads (F). Enter Frequency (f): Input the frequency at which you want to calculate the impedance in hertz (Hz). Calculate Impedance: Click the 'Calculate Impedance' button to compute the impedance.
This capacitor impedance calculator determines the reactance of an ideal capacitor for a given frequency of a sinusoidal signal. The angular frequency is also determined. Example: Calculate the impedance of a 10 pF capacitor at a frequency of 25 MHz. Input. Capacitance, C.
1 cze 2024 · This RLC impedance calculator will help you to determine the impedance formula for RLC, phase difference, and Q of RLC circuit for a given sinusoidal signal frequency. You only need to know the resistance, the inductance, and the capacitance values connected in series or parallel.
13 sie 2024 · This calculator is designed to determine the impedance of a capacitor based on its capacitance value and the frequency of the applied AC signal. How It Works? The impedance of a capacitor is a measure of how much it resists the flow of alternating current (AC).
Our capacitive reactance calculator helps you determine the impedance of a capacitor if its capacitance value (C) and the frequency of the signal passing through it (f) are given. You can input the capacitance in farads, microfarads, nanofarads, or picofarads.