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Question 2 • Find the time constant for the circuit below 10 kΩ Λ 20 kΩ...
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
Problem 7 Find the Thevenin equivalent at a-b terminals of the circuit below. + ν - Λ 10 kΩ 20 kΩ 70v (E) Problem 8 Use Norton's theorem to find V, in the circuit below. 12 kΩ 2 kΩ 10 kΩ 360v 24 ΚΩ 8 ) 30 mA 1 kΩς ν,
Calculate the ga the amplifier circuit below. Treat all op-amps as ideal. 4 kΩ 10 ΚΩ Λ 5 kΩ Ο + Το 2 ΚΩ 10 ΚΩ
3. Use the node voltage method to find io in the circuit. 2 kΩ 5 kΩ 5 kΩ 20 V 20 V 30 ΚΩ
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
Rς = 20 ΚΩ 5 kΩ - 10 V + υ Λ 8 ΚΩ 2 ΚΩς 5V 1-10V 27 ΚΩξυ, Ενέ ε11ε , και το P5.26_10ed Given: Va+2V Find vo ΤΗ V
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
The circuit is configured as below and after waiting for a long time the switches are moved as indicated. Find the indicated values. V8 V. 100 kΩ C 60 pF 25 kΩ C2 40 pF t500 ns 0 10 I(t)0 8/100C -4.1 22 4.122 0 Unit 1.5 I.(t) 9.875 +59.875 le Unit +7.6 I.(t) 0 The circuit is configured as below and after waiting for a long time the switches are moved as indicated. Find the indicated values. V8 V....
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
IV. Experiment Consider the circuit diagram below: 1 ko 3.6 ko 4.7 kΩ 10 V 2 3 ΚΩ 3 kΩ Write the node equations at node 1 and 2 Solve the node equations for the node voltages V, and V, Find current i (flowing through 4.7 kO resistor). iv. V. Simulate the circuit through TinkerCAD. Find V., V2, and i from your simulation. (R5 = 4.7 k.22) Simulation Result VIV V (V) 1 (mA)