Make an RIVP table. . . 10 Ω 8Ω 3ΩΣ Hi 30V
(a) Show that the system of differential equations for the currents i2(t) and i3(t) in the electrical network shown in the figure below is L1*(di2/dt) + Ri2 + Ri3 = E(t) L2*(di3/dt) + Ri2 + Ri3 = E(t) Solve the system in part (a) if R = 5 Ω, L1 = 0.01 h, L2 = 0.05 h, E = 100 V, i2(0) = 0, and i3(0) = 0. i2(t) = ?? i3(t) = ?? (c) Determine the current i1(t). i1(t)...
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 24 Ω 12Ω
linear algebra help. S2=AV1,AV2,AV3) Let A = 10 1 0 A.) Show s, is LI and forms a basis of R. - Dے واک وه ک ( ه ا ك (.) ( 2/ 5 24 (5) رک) pan 3 | 2 | - |
1/take Question 9 10 pts In the circuit below find i3 40 iy i ww 3Q i3 10 V 5 A 60 D Question 10 10 pts In the circuit below find i1 iz 3Q is 5 A 10 V 6 Q
find i3 if v(t) = 96e^(-2t) for t>= 0. show all you steps 4Ω 0 v(t) 40 Ω 15Ω 10Ω
Question (1): Using node voltage method. Find v. 2Ω , 8Ω 4Ω 20V 40 V -
spring 2017 Nane 500 Ω 40 10 Vs 30 25mH s. For t0, obtain the ditterential equation plus the two initial conditions needed to 8olve tor v,t), 88tating that the awit.ch closes at t
1. Show that if A-Ω then F 10, Ω, A, Ac} is a σ-algebra of subsets of Ω.
respect to the terminals a, b for the circuit s 10 Ω 2.5 Ω so v 30 Ω 6