For each graph below, you are instructed to find the RMS. However, do NOT find it. Instead, find the equation for each "segment" of the graph.
For example:
Do only the green part.
Remember to not skip any steps and explain/show HOW you got the equations.
For each graph below, you are instructed to find the RMS. However, do NOT find it....
Hello, I am providing the answers for this assignment but can you do it and show the work. I also had a questions, I am not sure when the answers will be 0, so how am i able to tell when the current and voltage will be 0 and when they will not. Is there an easy way to tell this? The circuit shown below has a triangle wave voltage source with Vpeak-10 V, Vminimum10 Vand period T-3 mS series...
done on pspice thank you Part IV: Diode Rectifiers Procedure: 1. Build the circuit model for full-wave diode rectifier in PSpice as shown in Fig. 4. The value of the load resistor is 10 k22. The input AC voltage source (VSIN in PSpice) is configured at 100 Hz and 20 V (peak-to- peak) in sinusoidal waveform. O 10K V.(t) V(A) A Figure 4. Circuit configuration for full-wave diode rectifier 2. Run the simulation and save the input and output voltage...
2. Consider the periodic waveform illustrated below. (The period is 10 ms, and two periods are shown.) (a) Determine the rms voltage. (b) If this voltage waveform is applied across a 0.5 Ohm resistor, determine the average power delivered to this resistor, and the rms current in the resistor. v(t) (Volts) VA 1 2 4 6 8 10 place in the 12 14 16 18 20 t (ms) -10 +
Part I: Inverting Amplifier Procedure: 1. Build the circuit model for inverting amplifier in PSpice with the following parameters: Ri = 5 k 2, R2 = 20 ks2, V+ = 10 V, V-=-10 V. 2. Hand calculates the theoretical closed loop gain Vout/Vin of the circuit model. 3. Generate a triangular waveform for Vin with the amplitude of 1 V and the period of 1 ms. 4. Run simulation. a. Set circuit model parameters. i.e., for voltage source: click VPWL...
Question 1. (a) Consider the waveform below that has a period of T of 0.04 seconds. What is the rms voltage of this waveform? V(t) 15 V 0.01 s 0.02 s T=0.04s (b) The figure below shows a network of resistances and reactances having values as shown connected to a voltage source with a voltage of (50+0j) volts rms and an angular frequency of 1000 rad/s. А. 32 3 mH V 52 200 uF 2 mH 1 mH (i) Redraw...
How would you find v(t) ? 1. Solve for the voltage v(t) in the circuit shown below when t = 0.73 ms. The voltage source is e(t) = 8 Vu(t), where u(t) is the unit step function. The component values are: R1 = 3 k.2, R2 = 4k.2. R3 = 2 k2, R4 = 10 k.2, R; = 1 k.2 and C = 0.22uF. RA w R1 w R2 e(t) ( R57 Ra} V(t) v(t) =
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...
please answer 3.1,3.2 and 3.3. First 3 photos are for fig1, fig 2 and fig 4. C1 310k 15F Figure - 1 RC Circuit (Discharging Period) In a source free RC circuit, we assume there was a DC voltage source acoss the capacitor such that Vo(t) = V at t=0, and it was suddenly disconnected at t= 0, shown as Figure 1. Then we can conclude that: • T1 = R is the time constant. Tydenotes the rapidity with which...
just do question 26 and 30 and show all your work (a) Select R so that 26. For the cincuit of Fig. 943,.40 30u-) m v(0+) 6 V. (b) Compute (2 ms). (c) Determine the settling time of the capacitor voltage. (d) Is the inductor current settling time the same as your answer to part (c)? 27. The current source in Fig. 9.43 is id) = 101(1-1) μ A. (a) Select Ri such that iLO")-2 μΑ. Compute L at t-500...
only 3 and 7 please H.W. #1 ELEC 210 I. Evaluate y = 5.6 sinα at each of the following angles. a, α = 90°,y". c, α = π / 3 rad, y =4L8 Find the amplitude and frequency of the following wave: y-3.2 sin (437t) , amplitude is b, α = 550, y =- d, α = 2π rad, y 2. 2 2 ,f= loa。 3. Find the angular veloiy f waveform with a period of T=55 s,ω=-rad/s 4....