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1. For the following circuit, solve for i(t) at t>0. 4. For the following circuit, solve for i(t) at t 0 101 itr) 40 0 25H . For the following circuit, solve for i(t) at t>0. 2. For the following circuit, solve for vit) at o 6? 1.50 10? 201 12? 0.1F 120V 1.25 H 3. For the following circuit, solve for vit) at o 6. In the following circuit, solve for vit) for PO. 120 son 3 mA 12...
Problem #1 Solve for the Thevenin Equivalent for circuit 1 and
the Norton Equivalent for circuit 2 with the following values for
X.
a) X = 9 Ω resistor
b) X = 1 H inductor
c) X = ¼ F capacitor Problem
#2 Place a 4 Ω resistor across the + and – connecters in Problem
#1 and solve for the value of voltage across and the current
through the 4 Ω resistor for each value used for X.
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Circuit B 7+ 1 Ve Rss Solve for the gain of the circuit Rs = 15K, Rf = 27 K, R, = 15 K, Vcc = 8V
The circuit in (Figure 1) is a non-inverting summing amplifier. Assume the op amp is ideal. Design the circuit so that vo = va + 2ub + 3vc. Part A Specify the numerical value of RA Express your answer to three significant figures and include the appropriate units. Figure < 1 of 1 > View Available Hint(s) 100 k 20 12 S.5V R = Value Units v 34.7k Submit Part B Specify the numerical value of Rc. Express your answer...
1. For the circuit shown in Fig. 1, solve for the voltage Vy and the current is 2Α 4 Ω 8 Ω 4 40V 10 Ω ξ 2 Ω ix Fig. 1 2. For the single-node-pair circuit of Fig. 2, find vx, iA, IB and ic. | IA ig ic 6AC 18 22 0.1v, 922 1 A Fig.2 3. For the circuit shown in Fig.3, find vx and i3 4 Ω iz + 10V 6 Ω. 3 Ω. υ Fig....