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#11 please and thank you 11. Exercise 7.12.1 HA 20 10 Find V. in the circuit...
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2. For the circuit below find the voltge v. i0 2Ω 5) 20 V 1012
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You are given the following circuit with: -40 V, Ri = 4 ?, R2 = 10?, R3 = 10 ?, and R,-52 10) Calculate the total equivalent resistance of the circuit. a) 6? b) 8? c) 10 ? d) 12? e) 14? 11) Compare the magnitude of the voltage drops across each resistor 12) Compare the magnitudes of the currents through each resistor a) >4> 12 b) II>I> I4 e) I>I-4> I2 e) 11 >...
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Exercise 4.10.52 Consider the vectors of the form :11, v, w ER〉 2w-2v-811 Is this set of vectors a subspace of R3? If so, explain why, give a basis for the subspace and find its dimension.
Please solve the two problems shown and show work.
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5) In the following circuit find an equation for v(t) the voltage across the capacitor for t>O. You may assume the circuit is in the steady-state just before the switch opens at t-0. 6 N 50 -Mu IH 3 10 ml Add equation 6) For the following circuit find an equation for v(t) fort > 0. You can assume that the circuit had reached the steady-state condition before the...
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ll Review Constants 2120 V and I-3.5490 A in the circuit shown. Find Ib. Express degree-polar entries.) your answer to three significant figures in either rectangular OR degree-polar form. (Use the rL0 template or reis(@) for V -20 T Submit Request Answer -j511 4Ω Part B Find Z. Express your answer to three significant figures in either rectangular OR degree-polar form. (Use the r/0 template or reis(8) for degree-polar entries ) Submit Request Answer
Find I1, I2 and I3 for the circuit attached above.
30 Ω 20 V 1 13 10 V 112 20 Ω
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1. Find the steady-state value of v, for the circuit shown 0.6H (200/3) 502 i(t) 0.4mH vſt) v (t) i(t) = 10cos (5000t) A v(t) = 20cos (50001-90°) V 2. Find the steady-state value of v, for the circuit shown 62500 i(t) 25kg 3.2n i vt) 250mH i(t) = 6cos (25,000t) mA
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24. (3 pts) Draw below a circuit to create an automatic power-on reset for digital Elip-flops, be sure to label signal names on schematic, (hint: think RC-time- constant) 25. (3 pts) Find va, Vb and Ib for the circuit shown below 5 V 10 k2 4.7 kΩ
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Q3: For the following circuit, Z;=6+j9.2, Z=2+j112, ZL=2-310 S2, Vab= 90 cos(120xt+10°) V, Vbc= 90 cos(120t-110°) V, Vca= 90 cos(120xt+130°) V. Vbc Z, Fig. Q3: the circuit of Q3. a) Find the line currents I, I, and Ic. (15 marks) b) Compute the current through each voltage source, 11, 12, and 13. (9 marks) c) Find the reactive power produced by each voltage source in the delta configuration. (6 marks)
Use superposition to find V. in the given circuit where 11 = 3 A and I2 = 4 A. 10 Ω 2V. 102 12 The value of V. in the given circuit is V. Assume Vo3 and V4 are due to the 3-A and 4-A current sources.