Figure 3. Use the following values for the comp onents in the circuit in Fig. 4:...
6. Use the following values for the components in the circuit in Fig. 4: R.-300 n, R-200 n, C-50 F, and I-10A (20) The circuit in Fig. 4 is critically damped. Att- Q, the switches change positions as indicated a. Draw the equivalent circuits for t<0 and t>0. b. Compute the current, vit) for t>O c. Compute the current, iult) fort >0 te0 t-0 Figure: 4
Function Generatr Inductor Model Ra R, Figure 1 Series RLC Circuit Preliminary This laboratory will demonstrate how varying resistance changes the natural response of a series RLC circuit (Fig. 1). The function generator is modeled as an ideal voltage source v(t) 5 u() V in series with source resistance Rs-50Q. After measurements using an LCR meter, the inductor is modeled as an ideal L 90 mH inductor in series with resistance RL-20Q. The capacitance is C-0.22 μF. 1) Calculate the...
3. Use the following values for the components in the circuit in Fig 3: R-200 О.x 282 V. Compute i(t) and V(t). -j200 Ω, Xc--j200 Ω and Vac- (12) V. i(t) R v(t) Figure 3.
4Ω, 5Ω, R3 llowing circuit, where Ris|0Ω, Q.1. [40 marks] Calculate the output voltage Vou in the fo R-42, Rs-52, R6-52, for Vsi-10V, Vs- 4V. (for the operation amplifier, v.- v,n 0) Rs R2 t R Vsi R4 Re Ri s2 Fig. 1 4Ω, 5Ω, R3 llowing circuit, where Ris|0Ω, Q.1. [40 marks] Calculate the output voltage Vou in the fo R-42, Rs-52, R6-52, for Vsi-10V, Vs- 4V. (for the operation amplifier, v.- v,n 0) Rs R2 t R Vsi...
3. Equivalent Resistance (20 pts) 222-152C The resistors in the figure have the following R1 . values o Ritz 25.0 Ω o R2-45.0 Ω o R3 15.0 Ω R4-35.0 Ω Rs. 10.0 Ω R6- 55.0 2 R2 Ra The emf device shown supplies 20 V to the circuit. (a) Find the equivalent resistance of this circuit. (b) Find the current and direction of current flow through R3. (c) Find the potential difference, Vab, across points a and b. Solution: ....
Circuit with Two Batteries and Six Resistors 1 2 3 4 5 6 A circuit is constructed with six resistors and two batteries as shown. The battery voltages are V1 18 V and V2 12 V. The I,I I, R positive terminals are indicated witha+ R Sp. R5 sign, The values for the resistors are: R1 = Rs 74 Ω, R2-R6-86 Ω R3-103 Ω, and ,a. VI R4 135 Q. The positive directions for the R4 currents l1, 12 and...
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...
a) Find the voltage and current in each bipole and resistor shown in the circuit by using Maxwell's method. b) Verify the results by applying Kirchhoff's Laws. R1 = R3 = R5 = R7 = R9 = 100 Ω R2 = R4 = R6 = R8 = R10 = 200 Ω E1 = E3 = E5 = 9 V E2 = E4 = 6 V Ri www R2 www www R9 R7 www R3 Es R: www Ει EA E2 E3...
A circuit made up of 6 resistors is shown in the figure, with resistances R1 = 16 Ω, R2 = 35 Ω, R3 = 29 Ω, R4 = 73 Ω, R5 = 89 Ω, and R6 = 31 Ω. The total current going through the circuit is I = 11.5 A. Part (a) Express the equivalent resistance of the combination of R4, R5, and R6. Part (b) Express the equivalent resistance of the combination of R3, R4, Rs and R6. Part (c) Express...
2. Use the following values for the components in the circuit in 282 V. Compute i(t) and Vt). Fig. 2: Rs 400, X.-ja00。Xc-j400 Ω and V- (12) Xu R v(t) 、 i(t) XC ac Figure 2