(5) TL 40 Consider the circuit below. For t<; s, both switches are in position 1 and the system has reached steady state. At time t=s, both switches move from position 1 to position 2 simultaneously. 40 } A (a) Find the current i at time t = IS 40 (i.e., immediately before the switches move). (b) Find the node voltage va at time t = 40 It (c) Find the node voltage v₁ at time t = 40 TL (e) Find the node voltage v₁ at time t = 40 (d) Find the current i at time t = s 40 (i.e., immediately after the switches move). (f) Find the node voltage v at time t = TL 40 6 V 4Ω 1 0.2 H + 2 S. S. S. S. Va is = 4 sin (10t +) A ↑ Hi. ia (s) va (160 s) UD (110 s) Vb ia (s) + va (16*s) 40 (s) Vb 32Ω 311² Vb 50 mF +8V 1 2

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(5) Consider the circuit below. For t<s, both switches are in position 1 and the 40 TL system has reached steady state. At time t = s, both switches move from position 1 to 40 position 2 simultaneously. (a) Find the current i, at time t = s 40 (i.e., immediately before the switches move). (b) Find the node voltage va at time t = 40 (c) Find the node voltage v at time t = 40 (d) Find the current i at time t = 6 V π + (e) Find the node voltage va at time t = 40 40 (i.e., immediately after the switches move). 4Ω (f) Find the node voltage v, at time t = 40 1 π + 0.2 H S 2 is π + S. S. S. S. Va = 4 sin (10t + 5) A ↑ HI. ta (15) s) va (1055) Va UD (76 S) Vb ia (s) Va TL UD (10² S) Vb HH 50 mF {202 ZA I 8√ IV Vb 8 V 2