Can you solve question 3.5 please, 3.4 is just the previous question EP 3.4. The initial...
can someone please help me solve this question using
superposition theorem, step by step
Circuit Theorems Chapter 4 134 find vx in the circuit of Fig. 4 Use superposition to Answer: v 31.25 V. Practice Problem 4.4 20 #х 25 SA 42 0.1 Figure 4.11 For Practice Prob. 4.4. Example 4.5 For the circuit in Fig. 4.12, use the superposit 24V 8Ω Solution:
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Question 1 (25 points) Determine V in the circuit in Fig. Pl using nodal analysis. { im Zim Figure P1 ( 2 m Question 2 (25 points): Use mesh analysis to find I in the circuit in Fig. P2 1k 1 0 0 + ax in Figure P2 Question 3 (25 points): Use superposition to find it in the circuit in Fig. P3 *** 23 Fique P3 Question 4 (25 points): Apply...
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full steps.
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8.17 In the circuit of Fig. 8.71, the switch instantaneously 0. Find v(t) for all moves from position A to B at t t2 0. 0.25 H 5 A 0.04Fv (t) 10Ω 4Ω Figure 8.71 For Prob. 8.17.
QUESTION 3 [40 marks] (1) [20 marks] Find the Thevenin equivalent of the circuit given in Figure 5. 40 оа 6Ω 0.25 Vx W 8V ЗА 4Ω b Figure 5 (ii) [20 marks] In the circuit of Figure 6, the switch has been in the close position for a long time before opening at time t = 0; a. (2 marks) Find the capacitor voltage v.(0) for t < 0. b. (15 marks) Give an expression for the capacitor voltage...
once simulated can tou explain what the diodes are doing ...
please explain good thank you
Problem 1: Voltage Limiting 1.1. Simulate the following simple resistor-diode circuit (shown on the left in Figure 1) R1 V out V1 ZD1 VOFF 0 VAMPL 3V FREQ 1KHZ 0.7 D1N4148 Figure Let V(in) be a 1KHZ VSIN with an amplitude of 3V. RI is 1KO. Lowest node voltage is ground. (1.1a) Set up PSPICE Transient and plot both V(in) and V(out) on the...
Question 4 (10 points) Solve for the node voltage V, shown in figure 4. -i5 2 1092 V w 20/90° 8 +j102 ) 10/0° Figure 4 Question 1 (10 points) a) Find the the voltages v/ , V, and vz for the circuit shown in figure 1. (2.5 points per node) b) Find the power delivered to the 10 22 resistance. (2.5 points) - M " 5 92 3.5 A 2. 53 3100 24 Figure 1
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question B4 , please:)
please
B1. (a) A DC circuit is shown in Figure Bl. 1092 B A 802 702 1402 18V Figure B1 Calculate (i) the total resistance across A and B (RT); (5 marks) (11) the total current from the DC supply (Is); (3 marks) (111) the potential difference(p.d.) across the 1422 resistor (V149); (2 marks) (iv) the current flowing through 1022 (11092); (3 marks) (v) the power dissipated by RI (PT)...
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please:)
B1. (a) A DC circuit is shown in Figure Bl. 1092 B A 802 702 1402 18V Figure B1 Calculate (i) the total resistance across A and B (RT); (5 marks) (11) the total current from the DC supply (Is); (3 marks) (111) the potential difference(p.d.) across the 1422 resistor (V149); (2 marks) (iv) the current flowing through 1022 (11092); (3 marks) (v) the power dissipated by RI (PT) (2 marks)
Can you solve this problem using NODAL ANALYSIS?? Please
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Question 2: Circuit Analysis, 5 elements 7. If Vs 3V : 7Ω, R- 20, R35Ω, and R Let R1 Find the value of V\ R4 WI R2 V2 Vs R3 V3 V = .1428 (within three significant digits)
Fall 2019 ECEN 206 Lab 4 Thevenin Equivalent Circuits Due First week of November Introduction: This lab focuses on the Thevenin equivalent circuit and maximum power transfer theorems Complex circuits are often replaced with their Thevenin equivalent to simplify analysis. For example, in the analysis of large industrial power systems the Thevenin equivalent is used in short circuit studies. Maximum power transfer is also an important concept which allows the designer to determine an optimal design when power is a...