The peak amplitude of the sinusoidal voltage source in the circuit shown in Fig. PIO.48 is 180 V, and its frequency is 5000 rad/s. The load resistor can be varied from 0 to 4000 0, and the load capac- itor can be varied from 0.1 aF to 0.5 aF. a) Calculate the average power delivered to the load when R, - 2000 i and C, - 02 F. b) Determine the settings of R, and C, that will result in the most average power being trans- ferred to R e) What is the average power in (b)? Is it greater than the power in (a)?
The peak amplitude of the sinusoidal voltage source in the circuit shown in Fig. PIO.48 is 180 V, and its frequency is 5000 rad/s. The load resistor can be varied from 0 to 4000 0, and the load capac- itor can be varied from 0.1 aF to 0.5 aF. a) Calculate the average power delivered to the load when R, - 2000 i and C, - 02 F. b) Determine the settings of R, and C, that will result in the most average power being trans- ferred to R e) What is the average power in (b)? Is it greater than the power in (a)?
Introductory Circuit Analysis (13th Edition)
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Transcribed Image Text:10.48 The peak amplitude of the sinusoidal voltage
r source in the circuit shown in Fig. PI0.48 is 180 V,
and its frequency is 5000 rad/s. The load resistor
can be varied from 0 to 4000 0, and the load capac-
itor can be varied from 0.1 uF to 0.5 uF.
a) Calculate the average power delivered to the
load when R,- 2000 1 and C, - 0.2 uF.
b) Determine the settings of R, and C, that will
result in the most average power being trans-
ferred to R,
e) What is the average power in (b)? Is it greater
than the power in (a)?
d) If there are no constraints on R, and C what is
the maximum average power that can be deliv-
ered to a load?
e) What are the values of R, and C, for the condi-
tion of (d)?
) Is the average power calculated in (d) larger
than that calculated in (c)?
Figure P10.48
6 kn
06H
12 kn
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