Find 12 in the circuit shown below. 4 13 30 15040° 712 a) 8.72-1.37⁰ b) 3/-48 7⁰ 5+j6 30/90° 6-j5 c) 7/17.25⁰ d) 55/45 3⁰
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- Find the current that flow through capacitor Ic IR Ic Vs = 20V425° f = 30KHZ R = 1000 C = 100nF (1)125. 65mAZ135° (2)251. 32mAZ120° (3)376. 9mAZ115° (4)628.31MA2110°In the following figure, RLC circuit, add a blue LED to show the process of charging the component, and the red LED to show the process of discharging the energy trapped in the component.Show the Analog Waveform Signal of the problem below. Please include the formula you will be using to get the waveform, also include what application you will be using to get the waveform. If you will use sine or cosine, please include the whole formula so I could just substitute it from the problem below. Problem: An oscilloscope's output is an analog signal that ranges only from 12.5mV to 50mV, while its highest frequency is 50kHz.
- 2_53528980697... -> For the circuit shown below, detemine the voltage of the -j10 2 capacitive reactance. -j5 0 ILOA(T) ==j102 jlon is Q 102 O 0.5L-90 52 A.For a series RLC circuit with a sinusoidal input voltage, the amplitude of the current passing through the circuit (I, in mA) is plotted as a function of frequency for two cases: Curve 1 with R1, L1. and Curve 2 with R2. L2 as shown in the next figure. The value of the capacitor used in the circuits is C=0.01 micro Farads. If the value of R2 =1600 Ohm then the input voltage (in volts) is: 7.5 25 110 Frequency H2 O a. 4 O b. 16 sin(9888 t) O c. 8 O d. 8 cos(6.28 f t) O e. 8 sin (6.28 R t)Shown in the figure below is an "RLC" circuit driven by an AC power source. The AC power source has an RMS voltage of Vps(RMS) = 9.35 Volts and is running at a frequency of f = 113000 Hz. The resistor has a resistance of R = 1980 , the capacitor has a capacitance of C = 1.08e-09 Farads, and the inductor has an inductance of L = 3.71e-03 Henries. mm Vps Write the FORMULA for the total impedance of the circuit Ztot = Write the FORMULA for the phase of the total impedance of the circuit øztot Determine the numerical value of Ztot = 2384 Determine the numerical value of @Z tot Determine the current through the circuit: ● R www I(PEAK) = I(RMS) = ● ● Determine the voltage across the inductor: • VL(PEAK) = Volts Volts VL(RMS) = Amps Amps Determine the voltage across the capacitor: Vc(PEAK) = Volts Volts Vc(RMS) = = 33.85 a capacitive switcher Ω degrees C If a second circuit were connected in parallel with the resistor, this circuit would be considered as: O a high-pass filter a radio tuner O…
- Google Play A Maps YouTube Wolfram Alpha: Co.. E Padlet: You are bea. C++ Tutorial for Be. Other bookmarks Gmail Find the equivalent capacitance (in F) seen by the source if C = 8.5 F C C 4.15 O 2.07 O 1.04 3.11 Time left 1:13:00 11:02 AM E ENG P Type here to search 25°C 5/24/2021QUESTION 5 E-05, PC-01. Capacitor can store energy in form of? Current. Electrical charge. Power. QUESTION 6 E-06, PC-03. An Inductor's time constant is given by? LR. O L/R. L2 /R.Assignment 2: Complex Waveforms - due Jan 24 A stringed instrument generates a complex waveform with the following components: 250 Hz with an amplitude of 5 500 Hz with an amplitude of 3 750 Hz with an amplitude of 1 What is the fundamental frequency? What other harmonics are represented? What would be the equation for this waveform? (Hint: the equation only tells us the relationship between the harmonics, and not the actual frequencies represented.) Calculate the amplitude values every 10 degrees and graph the waveform. You are welcome to do this in a spreadsheet if you know how. Please complete this assignment on graph paper and scan or digitally photograph your work.
- Problem: In electronics device laboratory, you need to use the function generator to use different types of signals e.g., sinusoidal wave, square waves, sawtooth waves and so on. Imagine you are planning to make an approximate square wave generator from a sinusoidal wave having peak voltage of [three digits before last digit of your ID] mV to use the produced square wave to study the clamper circuit. You can consider any frequency. You need to avoid using any dc power supply to save the energy. Also consider the amplitude of the produced square wave must be greater than the PIV of the diode. 1. Identify which circuit is necessary for making the generator. Illustrate input-output signals with appropriate labeling. 2. Lift the produced square wave above the x axis by the amount of [your last digit of your ID] V explaining appropriate steps. + Sinusoidal PIV1. Obtain the signals given below from the signal generator and view these signals on the oscilloscope screen and draw them on the screen given. a) v(t) = 5*sin(314*t) b) v(t) = 3*sin(37699*t) CH1 CH1 M =.... ..... ... ..... .. ..... ...C1 L1 R1 V1 Vout V1 contains the fundamental and its harmonics (fo, 2fo, 3fo, ...). The amplitude of the harmonics is inversely proportional to the harmonic number. V(fo) = 10 mV V(2fo) = 10mv/2 = 5 mV V(3fo) = 10mv/3 = 3.33 mV V(4fo) = 10mv/4 = 2.55 mV a) What is the minimum value of Q for the circuit that will attenuate the third harmonic (3fo) in Vout to be less than 1% of the fundamental? b) What is the amplitude of the fifth harmonic (5fo) as a percentage of the fundamental?SEE MORE QUESTIONS