# Question

Use Kirchhoff’s loop theorem to find the current in each resistor in Fig. 18.30.

## Answer to relevant Questions

Apply Kirchhoff’s rules to the circuit in Fig. 18.31 to find the current in each resistor. Find the currents in the circuit branches in Fig 18.38. A 1.00-μF capacitor, initially charged to 12 V, discharges when it is connected in series with a resistor. (a) What resistance is necessary to cause the capacitor to have only of its initial charge 1.50 s after starting? ...The galvanometer in Exercise 40 is to be used in a voltmeter with a full-scale reading of 15 V. (a) Should you use (1) a shunt resistor, (2) a zero resistor, or (3) a multiplier resistor? Why? (b) What is the required ...Three resistors with values of 5.0-Ω, 10-Ω, and 15-Ω are connected in series in a circuit with a 9.0-V battery. (a) What is the total equivalent resistance? (b) What is the current in each resistor? (c) At what rate ...Post your question

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