(e) For the circuit at right: R V1 (1) Label the two terminals of the source of EMF "+" or "-" as appropriate. R2 www V2 (ii) Draw arrows representing the currents in the various legs of the circuit. Label the arrows with symbols such as I2 chosen to represent the currents. R3 (iii) Label the two terminals of each resistor "+" or *as appropriate.

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Chapter1: Units, Trigonometry. And Vectors
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(e) For the circuit at right:
(i) Label the two terminals of the source of EMF “+" or "-" as
Vị
appropriate.
R2
V2
(ii) Draw arrows representing the currents in the various legs of
the circuit. Label the arrows with symbols such as I2 chosen
to represent the currents.
R3
(iii) Label the two terminals of each resistor "+" or "-" as appropriate.
(iv) Clearly indicate two loops in the circuit on which one can apply Kirchoff's Loop Rule (a.k.a.
Kirchoff's Voltage Law) and write the equation for each loop.
(v) Clearly indicate one junction at which one can apply Kirchoff's Junction Rule (a.k.a. Kirchoff's
Current Law) and write the equation for that junction.
(vi) Solve for the voltage across, and the current through, each of the resistors. (Consider V,, V2, R1,
R2, and R3 to be known.)
Transcribed Image Text:(e) For the circuit at right: (i) Label the two terminals of the source of EMF “+" or "-" as Vị appropriate. R2 V2 (ii) Draw arrows representing the currents in the various legs of the circuit. Label the arrows with symbols such as I2 chosen to represent the currents. R3 (iii) Label the two terminals of each resistor "+" or "-" as appropriate. (iv) Clearly indicate two loops in the circuit on which one can apply Kirchoff's Loop Rule (a.k.a. Kirchoff's Voltage Law) and write the equation for each loop. (v) Clearly indicate one junction at which one can apply Kirchoff's Junction Rule (a.k.a. Kirchoff's Current Law) and write the equation for that junction. (vi) Solve for the voltage across, and the current through, each of the resistors. (Consider V,, V2, R1, R2, and R3 to be known.)
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