For this circuit, what is i(0+), the current through the inductor at time t = = 0+. X 1 H m 3 A a. b. 10/3 V 0.5 V/s d. 0.5 A/s 2 A C. e. 2 V f. 10 A g. 0 h. 10 V 1092 t=0 +51 V : 4 F 5Ω 4u(t) A
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- An AC circuit contains a 24 resistor, a 15.9-mH inductor, and a 13.3F capacitor connected in parallel. The circuit is connected to a 240-V, 400-Hz power supply. Find the following values. XL=XC=IR=AIL=AIC=AP=WVARsL=VARsC=IT=AVA=PF=%=Three capacitors having capacitance values of 20F,40F, and 50F are connected in parallel to a 60 - Hz power line. An ammeter indicates a circuit current of 8.6 amperes. How much current is flowing through the 40F capacitor?An inductor is "charged" to some value, then connected in series with a 1002 resistor and allowed to "discharge". A measurement of the potential difference across the resistor is shown in the figure below. Compute the time constant of the circuit, the inductance of the inductor, and the initial current through the inductor. 12 10 8 6 Potential across resistor (V) 2 0 0 0.0001 0.0002 0.0003 0.0004 0.0005 0.0006 0.0007 time (s)
- A 140-mH inductor and a 5.50- resistor are connected with a switch to a 6.00-V battery as shown in the figure below. E ww 000 R L (a) After the switch is first thrown to a (connecting the battery), what time interval elapses before the current reaches 220 mA? (???) s (b) What is the current in the inductor 10.0 s after the switch is closed? (???) A (c) Now the switch is quickly thrown from a to b. What time interval elapses before the current in the inductor falls to 160 mA? (???) msThe current in a 20 mH inductor has the waveform shown in Figure Q1(c). Draw the waveform for the inductor voltage. i(t) (mA) 20 – 2 t (ms) Figure Q1(c)A 150 µF and 100 µF capacitors are connected in series and across a 100 sin (wt + 30*) voltage. Write the equation of the current in mA. 25wsin(wt+30') 6wsin(wt+30') 25wsin(wt+120') 6wsin(wt+120')
- 3. A 10ohms resistor and an unknown inductance is connected in series. The series combination is then connected to a 10V DC source. After 1 sec the voltage measured across the inductor is 3V. Find the value the unknown inductance for this condition. Use the false- position method to determine L to a level of Es = 0.1%. Employ initial guess of x₁ = 6 and x₂ = 10Basic Electrical Engineering: Inductance and Capacitance You are an electrician working in an industrial plant. You discover the problem with a certain machine is a defective capacitor. The capacitor is connected to a 240-V AC circuit. The information on the capacitor reveals that it has a capacitance value of 10 µF and a voltage rating of 240 V AC. The only 10-µF capacitor in the storeroom is marked with a voltage rating 350 VDC. Can this capacitor be used to replace the defective capacitor? Explain your answer.In the circuit at right, a 100 mH inductor and a 5 N resistor are connected by a switch to a 6 V battery. hlllo a. After the switch is thrown to position a (connecting the battery), what time interval elapses before the current through the inductor is 200 mA? b. What is the current through the inductor 10 seconds later? c. Now the switch is quickly thrown from position a to position b, such that the inductor and resistor form a complete circuit separate from the battery. How much time elapses before the current falls to 200 mA? R L bọ
- R₁ (10 m) 0.2 H ми 00000 &₁ = 50V R₂ (200) E₂ = 30VA 20-ohm resistor and a capacitor are connected in series with a battery of 60 volts. At t = 0, there is no charge on the capacitor. Find the capacitance if the current at t = 5 seconds is 3/e^s amperes. Ans. 0.05 Farads1. Find the voltages across the following components (a and b) after 1 second. The Capacitor is initially charged at 10V while the voltage source is 1V. Resistor R is 103 ohm while capacitor C is 1mF. a. Capacitor C b. Resistor R c. What is the best 1st order DE Method applicable to this problem?