5. Obtain Thevenin's and Norton's equivalent circuit below with respect to terminals a and b. 1 A 20 Ω 20 Ω 201 b

Probably it's math but idk which math cuz it's my frnd work

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5. Obtain Thevenin's and Norton's equivalent circuit below with respect to terminals a and b. 1 A 100 V 10 ΚΩ 6. Find the maximum power transferred to the resistor R in the circuit below 22 ΚΩ www 25 V + Vo 60 V 40 ks 0.00600 7. Under steady state DC conditions, find i and v in the circuit below: 15 92 25 V 6 A t = 0 10 92 www 10 F 3Ω www : 20 Ω HE V + www 8. The switch in Fig. below has been closed for a long time, and it opens at t= 0. Find v(t) for t≥ 0 t = 0 10 ΚΩ ਪੰਜਾ 2 ΚΩ (a) t=0 10 H m 4Ω (b) 20 H 9. Determine inductor current i(t) for both t<0 and t≥ 0 for each of the circuits in the figure below: 20 Ω 20/v 2Ω www www 292 b 30 ΚΩ 4 H 3 H 10 S2 + v(t) = 40 μF

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1. Using the superposition principle, find io and vo in the following circuit. 1, 10Ω 20 Ω + ο 6A 8 V 2. Use source transformation to find Io in the following circuit. 10 5A Assessment 3 ΤΩ 40 Ω 4Ω 14 3. Find Thevenin equivalent circuit for below circuit Configuration: 21. 3Ω www + του και 50 V 6Ω + V + 4Ω 2 Ω 2Ω Δια Vx 0.5v. ~ 20 Ω 3 Ω 6Ω 2Ω Μα 4. Obtain Norton equivalent circuits of the circuit below with respect to terminals a and b. ob 20 Ω 30 V 2011 V 5. Obtain Thevenin’s and Norton's equivalent circuit below with respect to terminals a and b. 10 Ω ob