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Textbook

University Physics Volume 2: Chapter 9

Current and Resistance

Theory

Current and Current Density

Electric current (${\displaystyle I}$) is the flow of electric charge through a conductor, measured in amperes (${\displaystyle A}$). The current density (${\displaystyle \overrightarrow{J}}$) represents the current per unit cross-sectional area, expressed as: ${\displaystyle \overrightarrow{J}=\frac{\overrightarrow{I}}{A}=\sigma \overrightarrow{E}}$ where ${\displaystyle \sigma }$ is the conductivity, and ${\displaystyle \overrightarrow{E}}$ is the electric field.

Resistance, Resistivity, and Conductivity

Resistance (${\displaystyle R}$) quantifies the opposition to the flow of current in a conductor, measured in ohms (${\displaystyle \mathrm{\Omega }}$). Resistivity (${\displaystyle \rho }$) is a material property that measures resistance per unit length and cross-sectional area. Conductivity (${\displaystyle \sigma }$) is the reciprocal of resistivity.

${\displaystyle R=\rho \frac{L}{A},\sigma =\frac{1}{\rho }}$

where ${\displaystyle L}$ is the length of the conductor and ${\displaystyle A}$ is its cross-sectional area.

Ohm's Law

Ohm's Law relates the voltage (${\displaystyle V}$), current (${\displaystyle I}$), and resistance (${\displaystyle R}$) in a circuit: ${\displaystyle V=IR}$

It also applies at the microscopic level: ${\displaystyle \overrightarrow{E}=\rho \overrightarrow{J}}$

Ohm's Law Simulation

• Ohm's Law on PhET
  

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