*****Use R = 8 ohms**********
Please answer both questions a and b.
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*****Use R = 8 ohms********** Please answer both questions a and b. R Q 0.1 H...
Use the information below to answer the next two questions about RLC series circuit. A RLC series circuit has R=5.0082,L=0.0150H and C = 330x106. This circuit is connected to an AC source with Vrms = 120V and f = 60.0Hz. What is the inductive reactance of the RLC series circuit? Answer: 22 What is the capacitive reactance of the RLC series circuit? Answer: What is the impedance of the circuit? Answer: What is the rms current in the circuit? Answer:...
Use the information below to answer the next two questions about RLC series circuit. A RLC series circuit has R=5.000, L = 0.0150H and C = 330x10 F. This circuit is connected to an AC source with Vrms = 120V and f = 60.0Hz. What is the power factor of the RLC series circuit? Answer: What is the phase angle of the RLC series circuit? Answer: What is the average power dissipated by the RLC series circuit? Answer: x103w What...
Consider a driven RLC circuit containing a resistance R = 100 Ohm, inductance L = 3 Times 10^-6 H, capacitance C = 1/3 Times 10^-10 F, and ac voltage source V = (0.002 V) cos(Ohm t), all in series. Carefully sketch the average power delivered vs Ohm, curve for this circuit, indicating all important features of the plot. P_ave^max = 2 Times 10^-8 W omega = 10^8 /s gamma = 1/3 Times 10^8 /s
Use MATLAB to write a function that takes inputs R, L, C, TO, Tf, DeltaT and f and produces as output the charge on the capacitor in a driven RLC series circuit where the input voltage source is v(t) = cos(21 ft). Here f is the frequency of the voltage source in Hz. This function returns the inverse Laplace Transform of (1) L (s2 + 2) ($2 + 2as +B) where a = # and B = Lc. Note that...
Please do parts b-d. 2. Consider the circuit shown below. 0.2i 7 2 4Ω 1Ω 4Ω 0.1 va (a) By hand, use any method (node voltage, mesh currents, etc.) tosolve for the currentix b) Using Spice, solve for ix and compare with your hand calculation. (c) Plot Va vs. Vs, where Vs replaces the 9 V voltage source (and has the same polarity) and varies from -20 to 20 volts. At what value of Vs does the direction of the...
3. (35 pts) Consider a standard RLC circuit with a resistor R, inductor L and capacitor C all in series driven by a voltage source v(t). The voltage source gives pulses of 5 volts that last 1 msec every 10 msec, i.e. a square wave with period 10. We are interested in the output y(t) which is the current flowing through the circuit at time t. (a) Find a general expression for the frequency response H(jw) of this system (b)...
USE MATLAB PLEASE Q4) (15 pts) An RLC circuit with an alternating voltage source is shown. The source voltage v, is given by vs = Vm sin(@dt), where on = 21fd, in which fo is the driving frequency. The ampli- tude of the current, 1, in this circuit is given by: Vm I = = R-+[waL-1/(waC)]* where R and C are the resistance of the resistor and capacitance of the capacitor, respectively. For the circuit in the figure C =...
please use multisim to answer all the parts. EXPERIMENT 3 TESTING SERIES & PARALLEL RESONANCES Objectives: To examine the conditions of resonances To observe the resonant circuit properties Equipment & components: A personal computer with Multisim software Preview questions: 1. How does the resonant frequency relate to the inductance and capacitance in a series LC circuit? 2. When the circuit in Figure 1 is tuned to resonant frequency, how does the voltage cross the resistor relate to the applied voltage?...
Accuracy is important. Do not round intermediates and check the answer range to make sure you are correct. Values: [01] 2.08 [02] 68.47 [03] 0.239 [04] 1173.7 [05] 1403. [06] 53.8 THE CORRECT ANSWERS WILL BE IN THE FOLLOWING RANGES: 8-1a. 140, 220 Hz 8-1b. 40:0, 62:0 mA 8-2a. 70:0, 99:0 V 8-2b. 140:0, 160:0 V 8-2c. 60:0, 99:0 V 8-2d. 60:0, 90:0 V 8-3a. 40:0; 99:0 pF 8-3b. 100; 400 mV 8-3c. 1:00; 3:00 mV 8-4a. 100; 150 V...
please answer all questions neatly and use Matlab for part C Vout - - Current Source Current-to-Voltage Converter SkW variable voltage 0-5V Figure 4. Current- to- voltage converter 3.- Current-to-Voltage Converter An op amp can be used to produce a voltage proportional to a given current as shown in fig. 4 a) (5 points) Derive the formula for the output voltage Vout. For full credit show all the steps of the formula derivation in a clear way, and indicate which...