1. Figure-1 shows, Vs= 10V, internal resistance, R.-100 Q, Find the circuit current andcurrent through load resistance RL.inoutww+ Vrms10 VRs100 QRL1kQFigure-12. A resistive circuit dissipated 5 W by drawing 10 mA (rms) current from fixed voltagesource. 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 reactance4. A series RC circuit is connected to a voltage source, Vms= 750 mV with seriesresistance, R = 500 and capacitor, C= 20 µF for operating frequency f= 20 KHz.Calculate the circuit impedance, its phase angle and circuit current.wwR1§ 2 ΚΩM

Answered: Image /qna-images/answer/7dd5a6ae-8276-4c91-8c49-c9438b81d330.jpg

Answered: 1. Figure-1 shows, Vs= 10V, internal…

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

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Concept explainers

Temperature Variance of Resistance

Electrical resistance or simply resistance is the property of a material that opposes the free flow of electrons through it. The total amount of resistance to the flow of charges (or current) is affected by many factors like the length of the conducting material, its cross-sectional area, resistivity, and temperature.

Question

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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