5. For the circuit shown in the figure below, calculate the followings- ii) Z (consider r=00) iii) Zo (consider r. - 00) iv) Av (consider r. -co). 10 pF 470 k 12 V 3122 H 10 μF A-100
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- A circuit is designed with an AC source of max voltage 12 and frequency 60 Hz. The circuit has a resistance of 1050 Ohms, an inductance of 0.06 Henrys, and a capacitance of 0.009 coulombs per volt. - omega for source in rad/s? - omegaR for circuit? -XL? -XC? -phi in radians? -Z? -imax?The question concearns RLC circuit, i have 2 sets of data, I need to calculate Z (impedance), R (resistance), Xl (inductive reactance), Xc (capacitive reactance), L (inductance) and C (capacitance) for every measurement in the PDF (first pdf is what do those numbers mean, second pdf is the measurement). I do not know how to calculate it, I do not know the formulas to do that. Please calculate it and show me formula how to calculate it. In this pure inductive load, do i need to calculate all the things i wrote above?The question concearns RLC circuit, i have 2 sets of data, I need to calculate Z (impedance), R (resistance), Xl (inductive reactance), Xc (capacitive reactance), L (inductance) and C (capacitance) for every measurement in the PDF (first pdf is what do those numbers mean, second pdf is the measurement). I do not know how to calculate it, I do not know the formulas to do that. Please calculate it and show me formula how to calculate it. In this RL parallel load, do i need to calculate all the things i wrote above?
- Write the differential equation for t > 0 for iC in the given figure. Assume VS = 9 V, RS = 4 kohm, R1 = 11 kohm, and R2 = R3 = 20 kohm.Show that at a given frequency ω, the circuits will have the same impedance between the terminals a,b ifR1=R21+ω2R22C22,C1=1+ω2R22C22ω2R22C2.2. Find the values of resistance and capacitance that when connectedin series will have the same impedance at 40 krad/s as that of a1000 Ω resistor connected in parallel with a 50 nF capacitor.Find the impedance theoretically of a wire if it carries the frequency 10 kHz have a voltage is 8v, the current is 2mA, resistance is 12 kΩ , inductance 27 mH and capacitance 0.2 µf
- a series r-c circuit takes a current whose equation is i=0.85sin(754t+pi/4) when connected to a source of emf having the equation e=340sin754t. calculate the capacitance of the capacitor, circuit power factor, and power.solve for the dc quantities, VB(Q1), and VB(Q2)can you solve this quickly? With reference to the source voltage, show the values of v, i, vr, vc in the time plane, the phasor plane and the complex plane.
- ( NEED ONLY HANDWRITTEN SOLUTION PLEASE OTHERWISE DOWNVOTE).Given a formula for i(t)=10sin(200pit+pi/8) across a capacitor (C=5microfarads). Find the expression of the voltage v(t) across the capcitor. Where Im confused is after integrating the Current and dividing it by C=5microfarads do we need to add +K at the end of the expression?.How does the characterization of the circuit as a Thévenin or Norton's equivalent simplify the prediction of the response of a circuit? Consider an AC wall plug. Is it better to model this source as a Thévenin equivalent or as a Norton Equivalent? Explain why. Again consider an AC wall plug. Is this source more like an ideal voltage source or like an ideal current source? Explain why.Vbatt=25 VC1=90 ?CC2=75 ?CC3=60 ?CR1=160 ΩR2=120 Ωt2=21.6 msect3=27 msecConsider the circuit shown below which shows a battery connected to some resistors and capacitors along with some switches which will be toggled opened or closed at different times. The components are listed above. The capacitances are in microFarads (?F), the resitances are in Ohms (Ω), and the times are in milliseconds (msec). A stopwatch is started at time t1=0 ms. At that time, switch S1 is closed and all other switches are open and the capacitor is allowed to charge up.(a). (i)What is the charge (in uC) on C1 at the time the stopwatch reads t2=21.6 ms?a)3690 b)1520 c)5710 d)2630 e)683 f)1750 (a).(ii)What is the current (in mA) through R1 at t2=21.6 ms?34.9 30.4 114 13.6 73.6 52.4 (b)(i)What is the voltage (in V) across R1 at t2=21.6 ms?8.37 5.58 2.18 11.8 18.2 4.85(ii). What is the voltage (in V) across C1 at t2=21.6 ms?63.2 29.1 40.9 7.57 19.4 16.9(c). (i) What is the energy (in mJ) in C1 at t2=21.6 ms?6.63…