​Electrons & Protons

• For your information...

• Electrons have a negative charge.

• Protons have a positive charge.​

Electric Charges

• ​ With an electric charge, it causes electrons and protons to exert forces on one another.

• ​ Particles with like charges repel one another.

• Particles with unlike charges attract each other.

• Sometimes electrons are temporarily pulled away from atoms, creating stationary areas of positive and negative charges.

• This is called static electricity

​Currents

• ​ The movement of charged particles, usually electrons, is an electric current.

• Direct current flows in one direction only, and it is used in battery operated devices.

• Alternating current flows back and forth rapidly​, and it is used in household wiring.

• A material that allows electrons to move freely from atom to atom is called a conductor. (aluminum and copper)

• ​ A material that does not allow electrons to move freely from atom to atom is called an insulator. (rubber and plastic)

• Semiconductors are in the middle of conductors and insulators. (silicon)

​Magnets

• An electric current produces a magnetic field that affects magnetic substances such as iron in the same way a permanent magnet does.

• Magnetic fields are produced by charged particles​. A particle is charged when it loses an electron.

• ​In an electromagnet, the charged particles move along a coil of wire connected to a battery or other power source.

• In a permanent, the spinning of electrons creates a magnetic field.

• Every magnet has 2 ends, called north and south poles.

• The north pole of one magnet attracts the south pole of another magnet; like poles repel one another.​

• ​Just as an electric current produces a magnetic field, a moving magnetic field produces an electric current.

• This principle underlies electric motors, generators, and transformers

• In an ​electric motor, magnetic fields are produced by electric currents. The magnetic fields push against one another, turning the shaft of the motor.

• In a generator, a moving magnetic field produces electric currents.

• In a transformer, an incoming electric current in coiled wire produces fluctuating magnetic fields, which in turn produce an outgoing electric current of a different voltage.

• The difference in voltage is caused by the differing sizes of the wire coils.​

​Electronic Devices