j 20 ll a b 100/20° V -j 5 2 Figure 04 Q4. (a) Find the Thevenin equivalent circuit looking from the terminals a-b as shown in Figure 04. Q5. (a) In Figure 04, assume that the load is purely resistive (R,), determine the value of the load resistor RĮ, across terminals a-b for maximum average-power transfer, and calculate the RMS value of the load current when R1 is connected between terminals a-b. (b) Calculate the complex power drawn by the load when R1 is connected between terminals a-b. ww

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Slove this question according to figure 04.

  1. Find the Thevenin equivalent circuit looking from the terminals a-b as shown in Figure 04.
  2. In Figure 04, assume that the load is purely resistive (RL), determine the value of the load resistor RL across terminals a-b for maximum average-power transfer, and calculate the RMS value of the load current when RL is connected between terminals a-b.
  3.  Calculate the complex power drawn by the load when RL is connected between terminals a-b.
j 22
ll
5Ω
b
a
ww
100/20° V
-j 5 2
Figure 04
Q4.
(a) Find the Thevenin equivalent circuit looking from the terminals a-b as shown
in Figure 04.
Q5.
(a) In Figure 04, assume that the load is purely resistive (R,), determine the value of
the load resistor RĮ across terminals a-b for maximum average-power transfer, and
calculate the RMS value of the load current when R1 is connected between terminals
а-b.
(b) Calculate the complex power drawn by the load when R1 is connected between
terminals a-b.
Transcribed Image Text:j 22 ll 5Ω b a ww 100/20° V -j 5 2 Figure 04 Q4. (a) Find the Thevenin equivalent circuit looking from the terminals a-b as shown in Figure 04. Q5. (a) In Figure 04, assume that the load is purely resistive (R,), determine the value of the load resistor RĮ across terminals a-b for maximum average-power transfer, and calculate the RMS value of the load current when R1 is connected between terminals а-b. (b) Calculate the complex power drawn by the load when R1 is connected between terminals a-b.
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