1. Figure-1 shows, Vs= 10V, internal resistance, R.-100 Q, Find the circuit current and current through load resistance RL. out ww Rs R1 RL Vrms 10 V 10002 2kQ 1 ΚΩ

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1. Figure-1 shows, Vs= 10V, internal resistance, R.-100 Q, Find the circuit current and
current through load resistance RL.
in
out
ww
+ Vrms
10 V
Rs
100 Q
RL
1kQ
Figure-1
2. A resistive circuit dissipated 5 W by drawing 10 mA (rms) current from fixed voltage
source. Calculate the circuit equivalent total resistance and supply voltage (rms).
3. An AC circuit draw = 50 mA (ms) current from fixed voltage source, V=20 Vrms.
Calculate the circuit equivalent total impedance and its phase angle for RL circuit. If R =
150 Q, calculate the inductive reactance
4. A series RC circuit is connected to a voltage source, Vms= 750 mV with series
resistance, R = 500 and capacitor, C= 20 µF for operating frequency f= 20 KHz.
Calculate the circuit impedance, its phase angle and circuit current.
ww
R1
§ 2 ΚΩ
M
Transcribed Image Text:1. Figure-1 shows, Vs= 10V, internal resistance, R.-100 Q, Find the circuit current and current through load resistance RL. in out ww + Vrms 10 V Rs 100 Q RL 1kQ Figure-1 2. A resistive circuit dissipated 5 W by drawing 10 mA (rms) current from fixed voltage source. Calculate the circuit equivalent total resistance and supply voltage (rms). 3. An AC circuit draw = 50 mA (ms) current from fixed voltage source, V=20 Vrms. Calculate the circuit equivalent total impedance and its phase angle for RL circuit. If R = 150 Q, calculate the inductive reactance 4. A series RC circuit is connected to a voltage source, Vms= 750 mV with series resistance, R = 500 and capacitor, C= 20 µF for operating frequency f= 20 KHz. Calculate the circuit impedance, its phase angle and circuit current. ww R1 § 2 ΚΩ M
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