Generators & Dynamos (OCR GCSE Physics A (Gateway))

Generators & Dynamics

Higher Tier Only

• The generator effect from electromagnetic induction can be used to:

  • Generate a.c in an alternator

  • Generate d.c in a dynamo

Alternator

• A simple alternator is a type of generator that converts mechanical energy to electrical energy in the form of alternating current (a.c)

An alternator is a rotating coil in a magnetic field connected to commutator rings

• A rectangular coil that is forced to spin in a uniform magnetic field

• The coil is connected to a centre-reading meter by metal brushes that press on two metal slip rings (or commutator rings)

  • The slip rings and brushes provide a continuous connection between the coil and the meter

• When the coil turns in one direction:

  • The pointer defects first one way, then the opposite way, and then back again

  • This is because the coil cuts through the magnetic field lines and a potential difference, and therefore current, is induced in the coil

• The pointer deflects in both directions because the current in the circuit repeatedly changes direction as the coil spins

  • This is because the induced potential difference in the coil repeatedly changes its direction

  • This continues on as long as the coil keeps turning in the same direction

• The induced potential difference and the current alternate because they repeatedly change direction

A.C output from an alternator - the current is both in the positive and negative region of the graph

Dynamos

• A dynamo is a direct-current (d.c) generator

• A simple dynamo is the same as an alternator except that the dynamo has a split-ring commutator instead of two separate slip rings

  

A dynamo is a rotating coil in a magnetic field connected to a split ring commutator

• As the coil rotates, it cuts through the field lines

  • This induces a potential difference between the end of the coil

• The split ring commutator changes the connections between the coil and the brushes every half turn in order to keep the current leaving the dynamo in the same direction

  • This happens each time the coil is perpendicular to the magnetic field lines

• Therefore, the induced potential difference does not reverse its direction as it does in the alternator

• Instead, it varies from zero to a maximum value twice each cycle of rotation, and never changes polarity (positive to negative)

  • This means the current is always positive (or always negative)

D.C output from a dynamo - the current is only in the positive region of the graph