Please explain in detail show all steps
Please explain in detail show all steps The circuit elements in the circuit are R=250, L...
5. The circuit elements in the circuit in Figure 1 are R=1250, L=200mH, and C= 5uF. The initial inductor current is -0.3A and the initial capacitor voltage is 25V. a) Calculate the initial current in each branch of the circuit. b) Find v(t) and it(t) fort > 0. + IR V. 200mH 110 12503 5uF 0 2
3. Natural response, for ? > 0 of a series R-L-C circuit has R = 1 Ω , L = 1 H and C = 1 F. The initial capacitor voltage is 4 V, and initial inductor current is zero. The series current is i. (i) Draw the time domain circuit. (ii) Draw the Laplace transform domain circuit. (iii) From (ii), determine Io =Io (s) (iv) From (iii), determine ?? = ??(?) for t > 0
In an RLC circuit, ? = 10 Ω, ? = 0.5 ??, and ? = 6.0 ??, the
current in the inductor is ?? = 12 ? sin(?? + 0.2). The circuit
operates at half of the resonance frequency.
a) Find the current in the resistor, capacitor and for the
entire circuit.
b) Find the voltage in the resistor, capacitor, and
inductor.
c) Find the emf of the AC source.
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2) In an...
Please show steps and answer.
A circuit is constructed with two capacitors and an inductor as shown. The values for the capacitors are: C1 = 324 muF and C2 = 364 muF. The inductance is L = 212 mH. At time t =0, the current through the inductor has its maximum value IL(0) = 135 mA and it has the direction shown. 1) What is wo, the resonant frequency of this circuit? radians/s 2) What is Q1(t1), the charge on...
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Q-21.5 Unanswered An inductor (L = 400 mH), a capacitor (C = 4.43 uF), and a resistor (R = 500 ) are connected in series. A 58.0 Hz AC generator connected in series to these elements produces a maximum current of 200 mA in the circuit. Calculate the required maximum voltage AVmax. 138 A 144 v 138 V 144 mv Q-21.6 Unanswered An inductor (L = 400 mH), a capacitor (C = 4.43 uF), and a resistor (R...
Please show all calculations and steps. Thank you
! stance of the inductor and calcu- I In ull current; (b) the active , (C) the power factor. A non-inductive load takes a current of 15 A at 123 ductor is then connected in series in order that the same current shall be supplied from 240 V, 5 mains. Ignore the resistance of the inductor and late: (a) the inductance of the inductor te inductance of the inductor; (b) the imped-...
Please help me with the exercise 2:
Consider the circuit shown where L=5 H, C=10 uF, Vo=220. The
switch is closed at t=0, determine the expression for the voltage
across the capacitor. Sketch the voltage across the capacitor,
inductor, and the diode. Sketch the current flowing through the
circuit
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1. For the current waveform, determine the average, rms, and peak current ratings 2. Consider the circuit shown where L-5 H, C=10 uF, Vo=220V. The switch is closed at...
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this question
In an R-L-C ac series circuit the voltage across the capacitor is 64 V and the voltage amplitude across the inductor is 96 V. Does the source voltage lag or lead the current in the circuit? (a) lag (b) lead
Learning Goal: To understand the mathematics of current decay in an L-R circuitA DC voltage source is connected to a resistor of resistance R and an inductor with inductance L, forming the circuit shown in the figure. For a long time before t=0, the switch has been in the position shown, so that a current I0 has been built up in the circuit by the voltage source. At t=0 the switch is thrown to remove the voltage source from the circuit. This...
Help needed please! Please show all work, thanks!
4000 - Suit) V 0.5pF = V(t) 0.5H Consider the above circuit and answer the following questions: a) What is the initial voltage across the capacitor and the initial current through the inductor? b) Compute the values of a and Wo. Hint: You may need to transform the circuit. c) Compute the roots of the characteristic equation. d) What type of response do you expect? e) Solve for the inductor current i(t)...