Step 1:- For "Req" we first make open circuit at load resistance and make short to voltage source.now we find 'Req'-
Step2 :- now we measure voltage thevenin(Vth).
Step3:- then we make thevenin equivalent circuit.
Part I Find Thevenin's equivalent Circuit of the circuit below: DC (+ 3R 2R Part II...
Thevenin's Theorem. "Any two-terminal, linear bilateral DC network can be replaced by an equivalent circuit consisting of a voltage source and a series resistor."This means that a circuit such as the one in Figure 1 can be replaced by a power supply and a series resistor, allowing for a quicker analysis of changes in load resistance,(RO) R3 Figure 1 Some of the advantages offered by this theorem are: • It allows the determination of any given voltage or current in...
*.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
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.
In the circuit below, for R= 228 Ω, find the equivalent resistance. (in Ω) R R a M N 2R 3R 2R 2R w b w Answer:
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
8Ω 4Ω For the circuit shown obtain the Thevenin's equivalent circuit between points "a" and "b" looking into the left and then (i) Find the load resistance Ri for maximum power transfer (i) Find the maximum power Transfer to the load resistance R
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
In the circuit shown below use Thevenin's equivalent circuit method to determine: a) The output current Io. b) How is the maximum power delivered to the load? 12v 7 Gama 6 24V
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