1) Calculate i* 10 kΩ 500 μΑ 2.5 2) Calculate 8Ω 16Ω 24 Ω 12Ω 1) Calculate i* 10 kΩ 500 μΑ 2.5 2) Calculate 8Ω 16Ω...
2. Solve the circuit below for ia 10Ω 4Ω 8ia a +I +10 V 12Ω 8Ω
Please solve this problem and I will leave you a good review arrec 8Ω -j6 Ω 12Ω j8Ω3 ξ j10Ω 8j8Ω 04 Given: V. - 15 angle 0 Volts Find ZT, of the Thevenin equivalent circuit looking into terminals ab. Zη 9.04166 6.9583 Ω (Ohms) Find the current in the primary side (left hand side). 1, 0.6946 x + -0.5 345 x Amps Check
2 Ω 6A P2 10 Ω 5 Ω 4 Ω ΜΑ- 3Α
2.5 kΩ 5H 3.0 uF The initial voltage at t<0, V40)-100 v and current i(0)-0. At t=0 the switch is closed. a. (10 points) Find a differential equation (in time domain) for the voltage across the inductor. (10 points) The following expression is the solution for the differential equation find in part b. Determine all the parameters in the solution α, A, B and ω. b. V()e (A Cos(ot)+ BSin(r)) c. (2 points) Determine the steady state current and the...
explain clearly and step by step using to study for final exam. will rate tthanks Problem 1: Consider the electrical circuit below and assume R1 = 12Ω, 10Ω, R3-9 Ω, R4-8 Ω, i,-3A, and v.-2 V. Using, Node-Voltage method, please, find the voltages vi, U2, v3 and the current i depicted in the figure. R1 Vs 1V2 VI RA releience Node . Problem 1: Consider the electrical circuit below and assume R1 = 12Ω, 10Ω, R3-9 Ω, R4-8 Ω, i,-3A,...
For the circuit shown 11-20 μΑ, 12-2 μ A, R,-5000 Ω. RL-200 Ω, VDDP-12 V and VDDN-12 V and the OPAMP is ideal and you notice there is negative feedback. VoUT due to I1 mV OUT due to I,- mV VoUT due to both I1 and 12 mV R1 (121 12 RL (RL) The relative tolerance for this problem is 1 %.
3-6: Use nodal analysis to find the values of i1, i2, and iz: 1 kΩ 10 mA 5 kΩ 11 30v) 1 ξ 500 Ω ξ4 ΚΩ (Ε) 80 V
1. Find V. 10 kΩ 2VW- 50 kΩ ΕΛΛΑ 20 ΚΩ 3 V-ΛΑ- 50 ΚΩ -1V.-- 2. Find V. 10 Ω 5Ω + Λ 1V + + 12 Ω 3Ω
- r.2 i A, i(10 Ω) = 1.03 A, and i(962) = 2.1 A. c) I(4 Ω) = 2.3 A, l(7 Ω) = 1 .644 A, l(10 Ω) = 1.23 A, and i(9 Ω) = 2.3 A. D) l(4 Ω) = 2.6A, l(7 Ω) = 1 .92 A, l(10 Ω) = 1.63 A, and I(96) = 2.6 A. 6) Consider the combination of resistors shown. Find the total equivalent resistance between the points (a) and (b) 12.0 Ω 4.00 Ω...
In the circuit shown in the figure below R1 . 42 Ω, R2 = 5.9 Ω, R3-32 Ω, li . 2.5 A, 4.7 A and i = 1.5 A. Calculate the power produced (or consumed) by the emf E2. (Give your answer in algebraic decimal: (+) if the emf produces electrical power and ㈠ of the emf consumes electrical power. Use "W" as unit) e1 Ri Ry R2 112 In the circuit shown in the figure below R1 . 42...