2. From problem 1, find Thevenin's equivalent circuit when Rx is changed from 120 ohm to122...
*.Q2/// Find Thevenin's equivalent across the 2 Ohm resistor for the circuit below .20 IT 12} 342 lov 2V 22 FM -6v ' 8v 30 } பிட //pOUS MAMYB-phy11A513-17 MFUS7kw submission Photo *.0211/ Find Thevenin's equivalent across the 2 Ohm resistor for the circuit below 2v IT lov 2V 22 345 -6v -8V 330 32 2.76 Ohm, 1.87 O 2.26 Ohm, 1.28v O None of the above 25
2. Find the Thevenin's equivalent circuit of the circuit shown in Figure 2 when viewing from the terminals a and b. (25 points) 302 коа 18v 20) on 1] Figure 2 Answer:
answer *.Q2/11 Find Thevenin's equivalent across the 2 Ohm resistor for the circuit below 4u 21 12 lov 2v 342 22 -6v 8V 332 Er 3.55 Ohm, 2 v O 2.76 Ohm, 1.87 v O 1.34 Ohm, 0.73 v O None of the above 2.26 Ohm, 1.28 v O 5.4 Ohm, 3 v ORII Some ranner wire has a resistance of 200 Ohm at 20:0 A current is
The question of electricity needs half an hour Q2/// Find Thevenin's equivalent across the 2 Ohm resistor for the *.circuit below 20 T lov 2V 42 22 -6v 8V 332 34
2. (15) Given the circuit, find the Thevenin's equivalent circuit without R Using the equivalent to determine the resistance R so that it can achieve the maximum power a. b. e caleulate the maximum power receved byR 24 V
Problem #2: In the circuit shown below use Thevenin's equivalent circuit method to determine: a) The output current lo b) How is the maximum power delivered to the load? © 24V
Part I Find Thevenin's equivalent Circuit of the circuit below: DC (+ 3R 2R Part II Find Thevenin's equivalent Circuit of the circuit below: 2R
Problem #2: In the circuit shown below use Thevenin's equivalent circuit method to determine: a) The output current lo. b) How is the maximum power delivered to the load? 12K M - 12v 0 Gama 6 24V
Important: Show all procedure. 1. a. Using Thevenin's theorem, find the equivalent circult to the left of the terminals a and b in the circult shown below. Hence find I. 622 6 Ω a 48 V 8 A {40 122 b. Find the Norton equivalent circuit to the left of the terminals a and b in the circuit shown above. Either you can use Nortoo's theorem or use source transformation from Thevenin's circuit of part a.