Transcript Slide 1
Electromagnetic Induction Motional Electromagnetic Induction Use a magnetic field to create a current • emf (electromotive force) ~ potential difference • Where does the energy come from? → work ! 7/16/2015 APHY101 1 Electromagnetic Induction Induction: a coil and a magnet The amount of induced emf depends on • • • • 1. 2. 3. 4. Strength of the magnetic field Relative speed of the coil and magnet Area of the loops Number of loops More work is required to move the magnet through a coil with many loops. • Why? 7/16/2015 APHY101 2 Electromagnetic Induction Electric guitars The string oscillates above a permanent magnet and coil 7/16/2015 APHY101 3 Electromagnetic Induction Magnetic flux The amount of a magnetic field that passes through a surface: ΦB = BA cosθ 7/16/2015 APHY101 4 Electromagnetic Induction Faraday’s Law The emf is proportional to the number of loops times the rate of change of the magnetic field in the loops 7/16/2015 APHY101 5 Electromagnetic Induction Generators Mechanical energy input with electrical energy output • Opposite of electric motors 7/16/2015 APHY101 6 Electromagnetic Induction Transformers Used to increase or decrease an alternating voltage Primary and secondary windings • Step-up or step-down • The iron core transfers the magnetic field from one coil to the other 7/16/2015 APHY101 7 Electromagnetic Induction Transformers 7/16/2015 APHY101 8 Electromagnetic Induction Transformers Power pole 7/16/2015 APHY101 9