College Physics III – Thermodynamics, Electricity, and Magnetism
Definition
Internal resistance is the resistance within a battery or any other voltage source that causes a loss in the output voltage as current flows through it. It is an intrinsic property of the source, often affecting the overall efficiency of electrical circuits.
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Internal resistance causes a drop in the terminal voltage of a battery when current flows.
It is typically denoted by $r$ and measured in ohms ($\Omega$).
The internal resistance can be determined using the formula $V = \mathcal{E} - Ir$, where $V$ is the terminal voltage, $\mathcal{E}$ is the electromotive force (emf), and $I$ is the current.
As internal resistance increases, the efficiency of power delivery decreases.
In practical applications, lower internal resistance in batteries and power supplies is generally preferred.
Review Questions
How does internal resistance affect the terminal voltage of a battery?
What formula relates electromotive force (emf), terminal voltage, current, and internal resistance?
Why is lower internal resistance preferred in practical applications?
Related terms
Electromotive Force (emf): The total energy supplied per coulomb of charge by a source when no current flows. It represents the maximum potential difference across the terminals.
$V = IR$, where $V$ is voltage, $I$ is current, and $R$ is resistance. This law describes how electrical properties interact in a simple resistive circuit.