DerivationVariablesStrategy- Find the total current flowing through all the resistors combined.
- Use Ohm’s law to rewrite the current in terms of potential difference and
resistance. An algebraic simplification gives the parallel rule for resistors.
Physics principles and equations
Since charge is conserved, the current flowing out of a junction equals the sum of the
currents flowing into the junction.
Ohm’s lawǻV = IR
The potential difference is the same across all parallel branches.Step-by-step derivationWhat is the equivalent resistance
of these resistors and what is the
current at the point shown?
current through circuit Itotal
current through ith resistor Ii
potential difference across all resistors ǻVpotential difference across ith resistor ǻVi
equivalent resistance of circuit Requivresistance of ith resistor Ri
Step Reason
1. Itotal = I 1 + I 2 + ... + In conservation of charge
2. Ohm’s law
3. potential differences equal
4. divide by equal potential
difference
27.11 - Interactive problem: a parallel circuit
The circuit contains a battery and three light bulbs. The resistance of two of the light
bulbs is known. Your task is to determine the resistance of the third light bulb.
You have an ammeter. It can be placed anywhere in the circuit to determine the
current at that point. Use the ammeter, along with your knowledge of parallel circuits
and Ohm’s law, to determine the resistance R.
Type your answer in the space provided. Press CHECK to see if your answer is
correct. You can try again by entering a new value and pressing CHECK again.
Central to solving this problem is the nature of potential difference and equivalent
resistance in parallel circuits. You also need to calculate the equivalent resistance
for resistors arranged in series, and apply Ohm’s law. Review the sections of the
textbook on these topics if you are having trouble.(^496) Copyright 2000-2007 Kinetic Books Co. Chapter 27