A circuit supplies a square current waveform with a peak value of 50mA and a transition time of 100nS the ground return conductor has a resistance of 50milliohm and an inductance of 100nH calculate maximum volt drop on ground conductor
A circuit supplies a square current waveform with a peak value of 50mA and a transition...
A series AC circuit has a power source with frequency f = 60 Hz, peak voltage of epsilon_0 = 5.0 V, resistance R = 0.50 omega, capacitance C = 320 mu F, and inductance L = 0.40 H. what is the period circuit? What is the maximum current through the inductor? What is the largest power reached in resistor? Suppose the power supply reaches maximum voltage at time t_1, how the long after t_1 does the current though the resistor...
You can use any software of your choice Begin by connecting the waveform generator to the series combination of a 0.2uF capacitor (use a decade capacitor box) and a 1 ks resistor (use a decade resistor box). Generate a 500 Hz, 8 Vp- p square wave with a 4 Volt offset and observe this waveform on the oscilloscope's Channel 1. Monitor the voltage drop across the capacitor on Channel 2. Figure 1 shows the schematic for the RC circuit 1k...
22.13 A series RLC circuit has a peak current of 5 A with a frequency of 11 kHz. If the resistance of the circuit is 52 kΩ, the capacitance of the circuit is 13 μF, and the inductance of the circuit is 25 mH, determine the average power of the circuit over one cycle. 6.5×105 W 1×105 W 2×106 W 2×105 W
1. A sinusoidal voltage is applied to the circuit. Draw the waveform of current and voltage assuming 5Hz frequency. What is the following value for current? (a) rms, (b) peak, (c) peak-to peak, (d) average, (e) change in current from 0.12ms to 0.2ms R1 10V P-F
a. For the waveform shown in figures, determine (i) Peak value (ii) the peak-to-peak voltage the time period (iv) the frequency (v) The angular frequency. (Volls) 12V M 30 18 42 (ms) - 12V Figure 5 b. What is the frequency of the waveform shown in figure 6? m. -200 ms Figure 6 C. The figure 7 shows the variation of charge across the voltage of two capacitors namely A and B. Which of the two capacitors has higher value...
A building takes a three-phase supply at 400 V with a declared prospective short circuit current of 30 kA at the intake switchboard. The cable installed between the intake switchboard and a remote distribution board has a circuit length of 100 m. The cable is PVC-insulated and has the following characteristics at 20 °C: 12.4 Phase conductor resistance 0.095 ma/m Phase conductor reactance 0.075 mO/m Conductor temperature coefficient of resistance 0.004 per c Connected to the remote distribution board is...
In a RL series circuit, the current reaches half its maximum value in 2.0 s after the switch is closed. If the resistance is 5.0 Ω, find the inductance of the inductor. (4 pts) In a RL series circuit, the current reaches half its maximum value in 2.0 s after the switch is closed. 5) If the resistance is 5.0 Ω, find the inductance of the inductor. (4 pts)
You have been asked to design a circuit, shown below, that will deliver a high-current, slightly underdamped, sinusoidal current pulse to a resistive load when the switch is closed at t = 0. You are given the design requirements and parameters listed in the table: a) What values of L and C are required to meet the specifications? b) Calculate the time of the first current peak. c) Calculate the maximum current delivered by the capacitor? d) Calculate the value...
1. A 2-H INDUCTOR DRIVES A CURRENT OF 0.5 AMP WHEN THE CIRCUIT IS OPENED THE CURRENT DISAPPEARS IN 0.01 SEC, CALCULATE THE EMF. 2. CALCULATE THE MAGNETIC FLOW THROUGH A COIL OF 7.2 Mh WITH 300 ROLLS WHEN i=10 mAmp 3. THE CURRENT IN A 0.02-H INDUCTOR VARY ACCORDING TO I-3t 4t CALCULATE a. Emf at t=1 sec and t = 5 sec b. So that the value of t the Emf induced is zero 4. A SOLENOID HAS...
The rms current in the circuit below is shown as a function of the frequency of the driving Emf. Capacitor C = 0.240?F and the total resistance R = 229 ?. Calculate the rms value of the driving Emf. Note that the curve passes through a grid intersection point. Calculate the maximum average power dissipated in the circuit. Calculate the inductance in the circuit.