Resistor Circuit Reduction#
A car battery charger circuit contains resistors with resistances \(R_1 = {{ params.r1 }} \rm{\Omega}\), \(R_2 = {{ params.r2 }} \rm{\Omega}\), \(R_3 = {{ params.r3 }} \rm{\Omega}\), \(R_4 = {{ params.r4 }} \rm{\Omega}\), \(R_5 = {{ params.r5 }} \rm{\Omega}\). The circuit is reduced in the steps shown in the figure below.
Part 1#
Select the steps in reducing the circuit that are allowed.
Answer Section#
\((a)\) to \((b)\)
\((b)\) to \((c)\)
\((c)\) to \((d)\)
Part 2#
If step (a) to (b) is allowed, calculate the value of \(R_6\). Otherwise enter “-1”.
Answer Section#
Please enter an answer in \(\rm{\Omega}\).
Part 3#
If step (b) to (c) is allowed, calculate the value of \(R_7\). Otherwise enter “-1”.
Answer Section#
Please enter an answer in \(\rm{\Omega}\).
Part 4#
If step (c) to (d) is allowed, calculate the value of \(R_8\). Otherwise enter “-1”.
Answer Section#
Please enter an answer in \(\rm{\Omega}\).
Part 5#
Once the circuit is as simplified as possible, what would you do to find the current through \(R_5\)?
Answer Section#
Attribution#
Problem is licensed under the CC-BY-NC-SA 4.0 license.
