In the circuit below, 40 sin 400t V and C= 25 µF. LO 300 52 m C+ ww 0.4 H b a. Find the Thevenin voltage with respect to the terminals a, b. b. Find the Thevenin impedance with respect to the terminals a, b. C. Find the load impedance 2, that can draw maximum average power from the terminals a, b.

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21 In the circuit below, = 40 sin 400t V and C = 25 µF.
a
b.
C.
NO
300 Ω
ww
a
4 H
b
Find the Thevenin voltage with respect to the terminals a, b.
Find the Thevenin impedance with respect to the terminals a, b.
Find the load impedance Z that can draw maximum average power from the terminals
a, b.
Transcribed Image Text:21 In the circuit below, = 40 sin 400t V and C = 25 µF. a b. C. NO 300 Ω ww a 4 H b Find the Thevenin voltage with respect to the terminals a, b. Find the Thevenin impedance with respect to the terminals a, b. Find the load impedance Z that can draw maximum average power from the terminals a, b.
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