8.5 Determine the Thevenin's equivalent circuit at terminals a-b in the circuit shown in Figure &.59 16 Ω 12 V 16 Q ) 2A
Q: 1) With reference to the circuit diagram given below formulate the condition for the continuous…
A: Given: Consider the circuit diagram: To find: Formulate the condition for the continuous current to…
Q: 8.101 Use Thevenin's theorem to find V, in the circuit in Fig. P8.101. 49 j20 -j4n = 12/0 v 4/90° A…
A: Thevenin’s theorem: This theorem says that any linear bilateral network can be drawn by the Thevenin…
Q: The switch in the circuit hasbeen in position a for a long time. At t=0 the switch…
A: When switch is at position “a” for very long time, then capacitor will act as open circuit and…
Q: Consider the circuit given below.
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Q: A coil of resistance 20 Ω and inductance 300 mH is connected in parallel with a capacitor of 200μF.…
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Q: 8.7 Find the voltage v, in the circuit of Figure P8.7. 12 k2 ww- 2 ΚΩ 6 kΩ ww ww- 11 V 4 k2 ww
A: Given circuit is –
Q: Example: For the circuit shown below, determine v, (t). vsf- 10 is
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Q: Obtain the Norton equivalent circuit for the circuit shown in Figure Q2. Given frequency, f is 1.59…
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Q: 8.3.4 For the RLC circuit shown in the image below, if R1 = 10 S2 and R2 = 3 S2, C = di (0*) 0.23 F,…
A: We need to find out rate of change of inductor current at initial time.
Q: H.w in the circuit Shown in fig. |- Cal cu late the equiva lert resis tance at A88. |2- Calcutte the…
A: The solution can be achieved as follows.
Q: An RL circuit has an emf given (in volts) by 4 cos t, a resistance of 100 ohms, an inductance of 4…
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Q: 8.48 Find each capacitor voltage in the circuit shown in Fig. 8-20. Ans. V= 200 y. 1= 100 V. = 40 V.…
A: In the circuit, capacitance are connect in series parallel. Find the voltage across each…
Q: For the circuit in Fig. below: b. Draw the phasor diagram of the voltages E, VR, and Vc. ll 30 N 0.2…
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Q: A RLC circuit with 100 Q resistor R1, 3 mH inductor L1, and 5 pF capacitor C1 are connected in…
A: The RLC circuit is shown below, Where, Resistor, R = 100ΩInductor, I=3mHCapacitor, C=5μFThe steady…
Q: 8.12 For the circuit of Fig. 8.44, find vc(t) at r equal to (a) 0¯; (b) 0*; (c) 00; (d) 0.08 s. 25…
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Q: 8.33 Switches 1 and 2 in the circuit in Fig. P8.33 are syn- chronized. When switch 1 is opened,…
A: we need to find iL(t) for t>=0
Q: Compute for the voltage Vab in the circuit shown below.
A: To solve above circuit, one should have idea of basic circuit theory rules: Kirchhoff's Law:There…
Q: Consider the following circuit.
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Q: 8.36 Find v, (1) in the eircuit in Fig. PS.36. 10 A 0.1 H 0.005 F 100 cos 401 V 40 cos (40t - 30) v…
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Q: Example 8.5 In the parallel circuit of Fig. 8.13, find v() for t> 0, assuming v(0) = 5 V, H0) - 0,…
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Q: In the circuit of Fig. 8.23, find i(1) and ig(t) for t> 0. 20 Ω 1 = 0 ww 4 A 4 20 H 20 Ω. 8 mF |…
A: According to the question we have to find i(t) and ig(t) for t>0.
Q: Consider the circuit depicted in figure. If Vs(t) =-8+2u(t).determine: Vc(0+), iL(0+),…
A: Given Circuit
Q: (b) The voltage across a 4 N resistor of an RC circuit in Figure Q8(b) is given by VR (t) =…
A: We will use parseval's theorm to find out energy dissipated by resistance .
Q: 8-14 Find the steady-state current in the RLC-circuit in Fig. 61 for the given data. Show the…
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Q: 59 8.63 Use nodal analysis to find V, in the circuit in Fig. PS.63. 41, V. 10 Figure P8.63
A: In this question, We need to determine the value of the voltage Vo as shown in the circuit using…
Q: a Consider the following graph:
A: Nodes and edges make up a graph, which is a non-linear data structure. Any two nodes in the network…
Q: 2 In the circuit shown in Figure P8.32, vsi = 2.9 x 10-3 cos(@t) vsz = 3.1 x 10-3 cos(@t) R = 1 k2…
A: The circuit is shown below: On applying K.C.L at node 1 of the given circuit,
Q: An RL series circuit has an EMF (in volts) given by 3 cos 2t, a resistance of 10 ohms, an inductance…
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Q: 10. (a) With reference to the simple circuit of figure 8, compute i(t) for (a) t = 0- ; (b) t = 0*;…
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Q: Find the fohal tansfer funchon Co) Le the --He RIS) ysten shown belowe Gy G8 to G5
A: We need to find out transfer function for given system .
Q: 8.14 The switch in Fig. 8.69 moves from position A to position B at t = 0 (please note that the…
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Q: 8.3.5 For the RLC circuit shown in the image below, if R1 = 2 2 and R2 = 4 S2, C = dvc(0*) 0.24 F,…
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Q: : By using mathimatical approach, find IpQ, Vasq and Vsp for the circuit of the figure shown, where…
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Q: Electrical system shown below consists of series RLC components. The input to the system is the…
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Q: Electrical Engineering (a) Some polycrystalline photovoltaic cells are to be arranged to provide an…
A: X=3, Y=2, Z=2. Given specifications are Open circuit voltage is VOC=0.622 Volts. Short-circuit…
Q: Practice Problem 8.7 Having been in position a for a long time, the switch in Fig. 8.21 is moved to…
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Q: By using mathimatical approach, find Ip,, Vcs, and Vsp for the circuit of the figure shown, where…
A: In FET If IDSS = 8mA, Vp= -8V Then find the IDQ , VGSQ , VSD ? Using mathematically approach,…
Q: A RLC circuit, R = 2 Q, L = 1 H and C = 0.01 F connected to a source, Vin. a) Obtain Vc/Vin . b) Use…
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Q: Consider the system shown in Figure 8.21. Design the value of gain, K, to yield 1.52% overshoot.…
A: The number of independent energy storage units in the system, as well as the highest order of the…
Q: For the circuit in Fig. 8.7. find: (a) iL(0+). vc(0*). vg(0+). (b) dir(0*)/dt, dvc(0*)/dt,…
A: We know behaviour of capacitor and inductor at t =0 and t tends to infinity . We will replace by…
Q: Rz C Rs 34 (+)
A: Let the currents in both the loops be i1 and i2
Q: 2. Given the equation below, stating the relationship between the damping ratio 7 and the phase…
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Q: 8.30 Find vd) and i,(1) in Fig. P8.30. 3H 2H F0.1 F 25 cos 21 V i,(1) (1)°a 0.05 F vo(1) 50 Figure…
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Q: s0 In the circuit shown in Figure P8.30, if R = 47 k2 R2 = 1.8 k2 RF = 220 k2 v, = 0.02 + 0.001…
A: (a) Write the expression for the voltage at the inverting and non-inverting terminal of the op-amp.
Q: Consider the following circuit operating under DC conditions. C
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Q: Practice Problem 8.8 Find i(f) and v(f) for t > 0 in the circuit of Fig. 8.24. 12u(t) A 0.2 F 5 H…
A: we will use KVL to find the differential equation governing the system. And we will use initial…
Q: Q7: Using the linear separability concept, obtain the response for OR function (rake bipolar inputs…
A: Given, Or gate functional table. We have to write for bipolar inputs. Please find the below…
Q: For the circuit shown in the figure below, find vo(t) using time domain analysis and determine how…
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Q: 8.20 The switch in the circuit of Fig. 8.74 has been closed for a long time but is opened at t = 0.…
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- julSjrpjdLjcwDWXZoojA9XtU12Mi-pTxteUKH * In the circuit of figure below, v() is 7 V-4 ww 10 V () = 7F True FalseFundamentals of Electrical Engineering 2020/2021 Dr. Yaseen H. Tahir Example: Find the equivalent conductance GAB for the circuit in Figure below and then find RAB- 2 mS ww 1mS A GAB - 36mS 3 mS 4mS: Solution: to CGAD= 8.493 MS R-1177.43o2 AB %3D4- In the circuit in following figure, obtain v1, v2, and v3. 15 V 25 V 10 V 20 V V3 University of Thi-Qar/Department of Electrical and Electronic Engineering-Lectures are prepared by M.Sc. Ali Kareem ilartric Circuits", by: Charles K. Alexander and Matthew N. O. Sadiku. Page 6
- For the following circuits, determine and sketch the output waveforms given the input waveforms shown. Provide calculations and/or sufficient explanations to support your drawings. a) Circuit A: 6V Ideal - 20V + V V, R Vo -20V b) Circuit B: C 20V Ideal R 8V V -20V +A circuit using the BJT is shown in the below figure, the value of B is +10 V wnlabob 5 kQ VB = 1 V VE = 1.7 V %3D 100 k2 slon ro of lo 5 k2 pribivoio -10 VDiscuss the Combinational Circuits
- Design an op-amp circuit to yield the relationship shown in each equation. Vo = V1 + 10V2 – 30V3 – 100 V4a.) Rmin = 6kΩb.) Rin = 6kΩ3-2) Draw the circuit diagram to output F given in the expression above by referring to schematics for 2-2) and 2-3). Use the space below to draw both the IC with pin assignments and a circuit F schematic. Schematic diagram: IC diagram: +3V IND Cate che GNDThe DC inputs of the ideal opamp circuit given in the figure are respectively V1 = 3V and V2 = 9V. Calculate the output V0 of this circuit.
- Give examples circuits under combinational circuit.Q. Design Op-Amp cat. to give the following IPS 1 2V-3212 V√3-6V4 Vo = VI VI - 2 V2 + 4 V3 - 814 1. Vo 2Find the input resistance between terminals B and G in the circuit shown in the figure. The voltage vx is a test voltage with the input resistance Rin defined as Rin = vx / ix.