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Use repeated source transformations in obtaining I in the circuit of Fig 4.32 4.35 Аnк 2A...
Solve the following: DO NOT USE SOURCE TRANSFORMATIONS
2. Find the Thevenin voltage and Thevenin resistance for the circuits of Fig. 2a and 2b. (25 pts)
a. Use source transformations to reduce the circuit to a single
loop with one V supply and one resistor in series with the unknown
component X.
b. Use source transformations to reduce the circuit to a single
node pair circuit with one I supply in parallel with one resistor
and the unknown component X.
c. Use your answer to part a to determine the voltage drop
across component X if it is an open.
d. Use your answer to part...
-2㏀.R3 = 10kf2.and R4-8㏀in the circuit shown Use a series of source transformations to find . I R2 1 alue Units Submit Request Answer
40 Aa 25 V * 200 Use source-transformations to find the Thévenin equivalent circuit with respect to terminals a and b. Show your work. V = (answers: 32 V, 892)
Problem 4. Use source transformations to find the current i2 in the circuit shown. 12 A 120 V
Using source transformations, find the current I and the voltage Vab of the circuit in Figure 9 (Ans: -0.2A, 8V) R60 ab 40 2 E224 V E348 V Figure 9
Use a series of source transformations to find io in
this circuit.
1 A 6? 5? 0 17? 6? 1,5 ? 34 V
Problems 4 and 5 are applications of "R-2R" ladders. 4. Use source transformations to find VouT in the circuit below. 1ΚΩ OUT 2K Ω 2K Ω 5. Use superposition and source transformations to find Vour in the circuit
Choose the correct answer: Use source transformations to exchange the partial circuit shown into an equivalent circuit with a voltage source in series with an impedance. What is the new voltage source? Z -j2 0 5245°A -ន ព 5 Q 26.93 23.2° V 1.73 Z21.8 V 26.96 Z21.8° V 10Z-45° V
Use a series of source transformations to simplify the circuit below into the Norton equivalent and find Vo. 20 kΩ Σ10 ΚΩ 30 kΩ 0.3 mAT) ΩΣ 0.3 mA - Isc(1) Βτοξ 10 kΩς Vo