The time constant of an RC circuit is 330 μs. If R = 1 kΩ, calculate C.
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The time constant of an RC circuit is 330 μs. If R = 1 kΩ, calculate C.
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- calculate the time constant for an RC circuit with the following values: (a): R = 1KΩ, C = 100nF, time constant = (b): R = 10KΩ, C = 100nF, time constant =` Calculate the time constant for an RC circuit with the following values: What are the Values of the time constants (a): R = 1KΩ, C = 100nF. (b): R = 10KΩ, C = 100nF.An RLC series circuit has a 60-Hz, 120 V applied voltage. R = 75 Ω, XL = 100 Ω, and XC = 89 Ω. What is the circuit capacitance? Group of answer choices 29.80 μF 909 μF 16.53 μF 25.37 μF
- Calculate the time constant for a series RC circuit whose resistance is 29k ohms and whose capacitance is 6.2uF. answer should be in mS.Determine the time constant for an RL circuit having an effective resistance of 1.15 ✕ 104 Ω and an inductance of 2.09 ✕ 10−2 H. ______sFind the charge on the capacitor in an RLC series circuit when L=0.5H, R=10 ohms, C=0.01F, E(t)=150 V; q(0)=1 Coulomb, and i(0)=0 Amperes. What is the charge on the capacitor after a long time?
- A source voltage of an AC series RLC circuit is 120 V. The circuit consists of the ff. quantities: R = 20 Ω, XL = 40 Ω, and XC = 40 Ω. The circuit current (in amperes) is _______________1. A series RLC circuit containing a resistance of 12Ω, an inductance of 0.15H and a capacitor of 100uF are connected in series across a 100V, 50Hz supply. Calculate the total circuit impedance, the circuits current, and draw the voltage phasor diagram.the current flows in the circuit is 5.88 A, the inductance is 0.17H and the capacitance is 162.74 µF . Calculate the maximum rms current in the circuit .
- Consider the RC circuit shown in the figure below. R = 1.5 kΩ C = 0.068 μF Add a new resistor R = 1.5 kΩ in parallel with the original resistor and calculate what happens to the time constant. Describe what happened. ...Calculate the capacitor voltage for t = 0– (zero negative) and t > 0 for the given circuit. Assume R = 4 Ω. The capacitor voltage for t = 0– is V. The capacitor voltage for t > 0 is v(t) = ______ +_______ (e– t /_________ )VAt 8.543 kHz, the reactance of a circuit capacitor is 9.0 uF. what is the value of inductor? i) 0.0000016 mH ii) 0.000039 uH iii) 0.0000039 mH iv) 0.0000016 H