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What is the time constant of a 50mH inductor in series with a 200 ohm resistor?

The time constant (τ) of a circuit consisting of an inductor (L) and a resistor (R) in series is given by the formula τ = L/R. In this case, with L = 50mH and R = 200 ohms, the time constant would be τ = (50mH) / (200 ohms) = 0.25 milliseconds.


What is the time constant of a 2 mH inductor and a 200 ohm resistor connected in series?

The time constant for an RL-circuit is equal to L/R. In this case, (0.002 H)/(200 ohm).


What is the time constant of a 20mH inductor in series with a 230 ohm resistor?

Simple...(20*10-3)/230=869 microseconds


What are the difference between rl and RC circuit?

RL circuit consists of a resistor and an inductor connected in series, while an RC circuit consists of a resistor and a capacitor connected in series. In an RL circuit, the time constant is determined by the resistance and inductance, while in an RC circuit, the time constant is determined by the resistance and capacitance. RL circuits respond to changes in current, while RC circuits respond to changes in voltage.


How do you calculate the time constant in a series resistor?

A resistor by itself has no time constant. For a circuit to have a time constant it must contain either capacitors or inductors.


What is one time constant of a 4.7 μF capacitor in series with a 22 kΩ resistor?

The time constant of a 4.7 µF capacitor in series with a 22 KΩ resistor is about 103 ms.


What is the time constant of a 0.001 microfarad capacitor and a 15000 ohm resistor connected in series in a dc circuit?

The same as the time constant of a 2.7 microfarad capacitor and a 33 ohm resistor connected in series.


Formulas for Time constant for inductor in series with a resister?

I=v/r(1-E [negitive exponintial -RT/L])


How do you change time constant of capacitor?

In theory ... on paper where you have ideal components ... a capacitor all by itself doesn't have a time constant. It charges instantly. It only charges exponentially according to a time constant when it's in series with a resistor, and the time constant is (RC). Keeping the same capacitor, you change the time constant by changing the value of the resistor.


A 3 V battery is connected in series with a resistor and an inductor The series circuit has a time constant of 532ms and the maximum current is 262 mA What is the value of the inductance?

The final current is E/R = 0.262 = 3/R.R = 3/0.262 ( = 11.45 ohms ).The time constant is RL = 0.532.L = 0.532 / R = (0.532) / (3/0.262) = (0.532) (0.262) / 3= 46.46 millihenrys (rounded)


What is the time constant of a .05 microfarad capacitor and a 200 kilo ohm resistor connected in series?

The time constant of a 0.05 microfarad capacitor and a 200 K ohm resistor in series is simply their product, 0.05 times 200,000, or 10,000 microseconds, or 10 milliseconds. (Farads times ohms = seconds)


What is the act of recovering energy from Capacitor?

A: It is called discharging a capacitor. The charge will follow the rules of a time constant set up by the series resistor and the capacitor. 1 time constant 63% of the charge will be reached and continue at that rate.