Calculate the total current magnitude in the below circuit. R₁ = 5 KQ, R₂ = 9 kQ, C₁ = 34 nF, C₂ = 38 nF, and f = 42 kHz The result should be in mA Calculate Answers to 2 decimal points 8/0° V C₁ HH C₂ www R₁ R₂
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- Refer to the given circuit. C1 = 5 µF C3 = 8 µF C2 = 4 µF C4 = 6 µF C5 = 4 µF DURACELL VT = 12 V What is the voltage across the plates of capacitor #1 (C1)? Select one: a. 6.36 volts O b. 2.71 volts O C. 5.65 volts O d. 7.32 voltsdraw "Vo" for the network in the figure and determine the available "DC" voltage SENOID INPUTS - HALF WAVE RECTIFICATIONVcc = +12 V %3D a. Determine the following values for the fixed-bias configuration in the figure to the right. Rc IBo and ICO 2.2 k2 C2 RB 240 k2 ac output VCEQ, VB, and Vc 10 uF C ac input VCE B = 50 VBC 10 µF
- Calculate circuit values below. How does the total circuit impedence change as the frequency increases from 500 HZ to 50 Khz? How does the total current change as those frequencies increase?Given the following Resistances and Capacitors in Series and Voltage Source: R1 = 6.946 ohms R2 = 9 485 ohms C1 - 0.731 Farad C2 - 0.925 Farad Vs - 15 Volts Frequency = 168 Hz What is the Capacitive Reactance of C1?Please solve fast ,Have very less time. Do correctly . What is the total inductance in the circuit in Figure 13-1? A) 2600 uH B) 2100 mH C) 602 mH D) 800 mH
- What is the capacitor that must be added to this circuit to get a power factor of .90 The answer key: 21.879microF Can you please break down the answer in steps. Thank youThe attached image shows a circuit with an AC voltage source, a resistor, inductor, and capacitor connected in series. The circuit has the following characteristics: Resistor resistance: 10 ohm Capacitor capacitance: 0.05 F Inductor inductance: 13 H Current Amplitude: 4 A Voltage amplitude across the source: 60 V Frequency at the source: 0.3 Hz Voltage amplitude across the resistor: 35 V Voltage amplitude across the capacitor: 37 V Voltage amplitude across the inductor: 80 V (a) Calculate the RMS voltages from the amplitudes above. From the RMS voltages across the capacitor, inductor and resistor, calculate the RMS voltage of the AC source. Hint: Vrms = V0/sqrt(2) Vrms = sqrt( (Vrms,R)2 + (Vrms, L - Vrms, C)2 ) (b) Calculate the RMS value of the current (c) Using the resistance, capacitance, inductance, and the frequency of the AC voltage, calculate the impedance Z. From this, and the previously measured value of Vrms, find the RMS value of the current in the circuit.ANSWER ASAP. NEED THE ANSWER IN 1 HOUR. WILL UPVOTE note: assume f=60hz
- If a millivoltmeter is having a coil with a temperature coefficient of 5 m0/C, then the compensation resistance added to cancel the effect of temperature on the coil should have a temperature coefficient of 5mQ/C° -5mQ/C° 1mQ/C° None of the aboveQ1) What type of signal does the circuit in Figure produce? Determine the frequency of the output. Show how to change the frequency of oscillation in Figure to 10 kHz? Choose the capacitor with value=1name's of zeros pF. C R1 22 ΚΩ oV out R2 56 kN R3 18 k203: CLO3, C4 Design the values of resistors for circuit given in figure 3a. The characteristic of the BJT are given in figure 3b. Assume VCE = /cc & Vc = Vcc. Use approximate 3 approach for R1 & R2