Consider the circuit below. Here we have ɛj=3.0 Volt, £2=6.0 Volt, R1=R2=R«=R=2.0 2, R3=4.0 2. Determine the intesities and directions of the currents going through R2, R3 ve R4. Take the internal resistances of the batteries zero. Thereby, calculate the electric potential differences in between the edges of the given resistances. (Hint: R¡ and R3, also R4 and Rs are connected in series. Their equivalent resistances are the same. Under the circumstances, the currents created by the batteries of electromotorforce ɛ; are counteracting each other. If so, the current going through them, is the same as the current going through R2.) R2 R4 R3 Rs Ez R1
Consider the circuit below. Here we have ɛj=3.0 Volt, £2=6.0 Volt, R1=R2=R«=R=2.0 2, R3=4.0 2. Determine the intesities and directions of the currents going through R2, R3 ve R4. Take the internal resistances of the batteries zero. Thereby, calculate the electric potential differences in between the edges of the given resistances. (Hint: R¡ and R3, also R4 and Rs are connected in series. Their equivalent resistances are the same. Under the circumstances, the currents created by the batteries of electromotorforce ɛ; are counteracting each other. If so, the current going through them, is the same as the current going through R2.) R2 R4 R3 Rs Ez R1
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter17: Current And Resistance
Section: Chapter Questions
Problem 40P: A typical cell phone consumes an average of about 1.00 W of electrical power and operates on 3.80 V....
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