Magnetic Effects Of Electric Current

This section explores how electric currents create magnetic fields and the fundamentals of electromagnetism.

Magnetic Field And Field Lines

This section discusses the relationship between electric current and magnetic fields, highlighting the principles and experiments that illustrate this connection.

Activity 12.2

This section describes an experiment using a bar magnet and iron filings to demonstrate the concept of magnetic fields and their visual representation.

Magnetic Field Due To A Current Through A Straight Conductor

This section explores the relationship between electric current and the magnetic fields generated by straight conductors.

Right-Hand Thumb Rule

The Right-Hand Thumb Rule helps in determining the direction of the magnetic field created by a current-carrying conductor.

Magnetic Field Due To A Current Through A Circular Loop

This section explores the significance of magnetic fields produced by current-carrying circular loops, explaining the direction and pattern of magnetic field lines.

Fleming's Left-Hand Rule

Fleming's Left-Hand Rule illustrates the relationship between electric current, magnetic field, and motion in electrical devices such as motors.

Magnetic Field Due To A Current In A Solenoid

This section discusses the magnetic field produced by a current-carrying solenoid, its similarities to a bar magnet, and its applications.

Force On A Current-Carrying Conductor In A Magnetic Field

This section explores the relationship between electric current, magnetic fields, and the forces exerted on current-carrying conductors within those fields.

Domestic Electric Circuits

This section explains the principles and components of domestic electric circuits, including safety measures and circuit functionality.

Wiring And Components

This section covers the basic electrical wiring components found in homes, including live wires, neutral wires, earth wires, circuits, and fuses.

Electric Fuse

Electric fuses protect domestic circuits by preventing damage caused by excessive current through melting when overloaded.

What You Have Learnt

This section summarizes the fundamental concepts of the magnetic effects of electric currents and highlights the relationships between electricity and magnetism.

Exercises

The exercises section covers activities that reinforce the principles of electromagnetism and the behavior of magnetic fields produced by electric currents.

Activity 12.1

This section explores the relationship between electric current and magnetism through interactive activities, emphasizing the magnetic effects of an electric current.

Hans Christian Oersted (1777–1851)

Hans Christian Oersted discovered the relationship between electricity and magnetism when he saw a compass needle deflect while current flowed through a wire.