Please Solve with work shown 4-37 In Fig. 4-41, solve for l-R, ν, ν, v,x, R,...
Please solve the following problem. 6-33 In Fig. 6-43, solve for , R R2, V2, V, V, , Vo, 2 /3 l 5 and l Figure 6-43 V,=5.4 V R1 = 180 Ω P/2 K. = 30 V 4 1.5 kΩ Re-100 Ω
Question 2 For the circuit shown in Fig. 3, E is a dc source given by E = 15 V, and Is is an ac source given by is = 0.5V2 sin(2000t + 20°) A. 1) What is the phasor expression for Is? 2) Determine the sinusoidal (time domain) expression for the voltage V. Use superposition, R, = R, = R, =100 G =C, = 504F 4 = L; =5mH 65 2 - 41° V 822 402 Question 3 Write...
Please provide an example on how to solve this problem. 1. In the circuit of Fig.2, load resistance R = 30 ? and line resistance r varies from o to 100 2.Draw the graph of absorbed power PR with respect to R. V- 12 Volt. Use the data Table below. In the plot, R will be in r axis and PR will be in y axis Fig. 2. A power supply with internal resistanc r is connected with load resistance...
A chopper is feeding an RL load as shown in Fig. 2 with V= 220-V, R = 10 Q, and L = 15.5 mH, f= 1-Khz, and E = 110-V and k = 0.4. Calculate: the instantaneous load currents. (a) (b) (c) (d) (e) the average load current Ia and the rms load current Io. the effective input resistance R;. the rms value of chopper current Ir. draw the voltage across the chopper SW and draw the current through Dm-...
please help with all parts Consider the full-bridge inverter shown in Fig. P3.1 with an R-L load of R = 8 and L 30 mH, fo 60 Hz, and V 120 V. ST S1 + o (a) Determine the rms for vo and io for the first, third, fifth, and seventh harmonics. (b) Determine the total power delivered to the load for the above harmonics. (c) Carefully sketch the waveforms for vo and vs Label the sketches and show switches...
please show calculations and explanation when necessary In the circuit shown in Fig. 1, V = 120 V, R1 = 402, R2 = 209, and R3 = R1 = 109 a) What is the equivalent resistance of this circuit? b) What is the current through 13? c) What is the potential difference across R2? d) What is the total power used by this circuit? w RE ww R, RA Figure 1: Problem 1
For the system shown in Fig. 1, solve the following problems. (a) Find the transfer function, G(s)X2 (s)/F(s) (b) Does the system oscillate with a unit step input (f (t))? Explain the reason (c) Decide if the system(x2 (t)) is stable with a unit step input (f (t))? Explain the reason 1. 320) 8 kg 2 N/m 4N-s/m 2N-s/m Fig. 1 2. There are two suspensions for a car as shown in Fig. 2 (a) Find the equations of each...
Solve this problem step by step and neatly. In the circuit of Fig. P5.2, the capacitors have the same value C and all resistors ex- cept one have the common value of R. Analyze the circuit to determine the transfer functions 5.2 and T. =- and classify each as lowpass, bandpass, bandstop, etc. V. Ra = (20-1)R 4 FIGURE P5.2
PLEASE WRITE THE ANSWER LEGIBLE! 30. Solve: r-6 X-4 + 16 = 0. Show work. r? -16
Bridge Network Part 4 (a) Construct the network of Fig. 14.4. Insert the measured resistor values R3 3.3 k R=3.3 k RImeasured = Vs- R 2.2 k R2 measured - R3 measured E 20 V Is Ra measured =1.2 k = 2.2 k Ra R3 A5 measured FIG. 14.4 (b) Using any one of the three techniques examined in this experiment, calculate the voltage Vs and the current Is. Use the measured resistor values. Record the results in the "Calculated"...