3. Find V, from following circuit using Thevenin's theorem. 3 kΩ 6 kΩ: 3 kΩ 4...
3. Find V, from following circuit using Thevenin's theorem. 3 kΩ 6 kΩ 3 kΩ ' 4 mA 12V 12V 4. Find Vo from following circuit using Norton's theorem only. 12V 2 ΚΩ 3 mA ( 4 ΚΩ 4 ΚΩ 12 ΚΩ
Find V, from following circuit using Thevenin's theorem. 3 ΚΩ 6 kΩ 3 kΩ 4 mA 12V 12 V
Please solve using thevenin, Ans: -12V 3. Find V, from following circuit using Thevenin's theorem. αι 3 ΚΩ 6 kΩ 3 kΩ 4 mA 12V 12 V
Please solve using Norton, Ans: -2V 4. Find Vo from following circuit using Norton's theorem only. 12V 2 ΚΩ 3 mA 4 kΩ 4 kΩ V. 12 kΩ
4. Find V, from following circuit using Norton's theorem only. 12V 2 ΚΩ 3 mA 4 ΚΩ 12 ΚΩ 4 ΚΩ
5) Find V. in the circuit below using Thevenin Theorem 12V - +) ΕΛΝ 2 kΩ + + 2Vx 2 ΚΩ 2000 Λ Vx 2 kΩ α 2 ΚΩ V. 7 4
5. (15 pts) Use Thevenin's theorem to find I. - 8 kΩ 12V - - - - ΤΑ 2 ΚΩ Β 12 ΚΩ ,34 ΚΩ ΚΑΙ 4 ΚΩ
4. Find I using Norton's theorem 1 kn 1 kΩ V + 2V 2 k2 12 V Answer: = 4mA 5. Use Thèvenin's theorem to find Va. 1000 6 kn 1 kn + 2 kΩS 2 kΩ 3 V 1 mA V Answer: V = V 6, Use Norton's theorem to find V Š1 k2 4000 2 kn 3 kn V3 kn 1 mA Answer: V= =1.4516V 4. Find I using Norton's theorem 1 kn 1 kΩ V + 2V...
Find V. in the circuit in the figure below using superposition. =3 mA 7 kΩ Ο 4 kg 7 kΩ Ta = 2V I h = 8V 4 ΚΩ 6 kΩ Ι ο Vo with only V, turned on Vo with only V6 turned on 75.6 V with only I, on = V =
Use Thevenin's theorem to find voin the given circuit where V = 9 V. 2Α 6Ω 5Ω 4 Ω + % V 3 Ω 12 Ω 19V The value of vo in the given circuit is mV.