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physics chapter 6 and 5

Faradays law of induction

  • A changing magnetic field will induce an EMF in a loop of wire

  • EMF- electromotive force => elektromagnetisk induktion

    => Which Is what causes electrons to move and form a current

  • changing the area of the loop of wire induces a current, too, and so did changing the angle between the loop and the magnetic field.

Magnetic flux- magnetisk flödestäthet

=> a measure of the magnetic field running through a loop go wire.

=> when the field changes it induces an EMF

BxAxcos0= 0b=> magnetic flux

alternative: BxA=0b

  • if the magnetic flux through a loop of wire decreases over time, the EMF increases accordingly.

  • if the magnetic flux increases over time, the EMF decreases

    EMF= -number of loops x change in flux/ change in time

  • Faradays law of induction lets us calculate how much EMF and therefore, how much current will be induced in a loop of wire by a change in magnetic flux.

    Lenzs law

    => says that the magnetic field generated by the induced current will be in the direction opposite the change in magnetic flux.

    Eddy current- virvelströmmar

  • Lenzs law

    alternators and dynamos

  • Direct current - alternate current

    => electrons flow in only one direction => electrons change their directions

  • an alternator uses magnetic fields to create alternating currents. two commutators

  • a dynamo uses magnetic fields to create a direct current. one split commutator

  • Change the size of the magnetic field then the size of the current increases

    => also happens if we increase => the number of turns

    => the area of the coil

  • changing the rotation speed leads to increase in both size and frequency of the current.

    Transformers

  • consists of two or more coils of wire wrapped around the same magnetic field.

  • If a DC current passes through then the transformer behaves the same way as if they were replaced with normal wires

  • if an AC current passes through one coil causes current to also flow in the other coil.

  • Depending on how many turns are in each coil, the transformers can mak the voltage bigger or smaller

    => more turns=> higher voltage→more energy per particle

    =>less turns=> lower voltage→ less energy per particle

  • the transformers does not create or destroy energy it only moves the particles from one side to another

  • the number of charged particles flowing each second is what we refer to as the current

  • lower voltage <=> higher current

  • Higher voltage <=> lower current

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PhysicsCircular Motion & Gravitation

physics chapter 6 and 5

Faradays law of induction

  • A changing magnetic field will induce an EMF in a loop of wire

  • EMF- electromotive force => elektromagnetisk induktion

    => Which Is what causes electrons to move and form a current

  • changing the area of the loop of wire induces a current, too, and so did changing the angle between the loop and the magnetic field.

Magnetic flux- magnetisk flödestäthet

=> a measure of the magnetic field running through a loop go wire.

=> when the field changes it induces an EMF

BxAxcos0= 0b=> magnetic flux

alternative: BxA=0b

  • if the magnetic flux through a loop of wire decreases over time, the EMF increases accordingly.

  • if the magnetic flux increases over time, the EMF decreases

    EMF= -number of loops x change in flux/ change in time

  • Faradays law of induction lets us calculate how much EMF and therefore, how much current will be induced in a loop of wire by a change in magnetic flux.

    Lenzs law

    => says that the magnetic field generated by the induced current will be in the direction opposite the change in magnetic flux.

    Eddy current- virvelströmmar

  • Lenzs law

    alternators and dynamos

  • Direct current - alternate current

    => electrons flow in only one direction => electrons change their directions

  • an alternator uses magnetic fields to create alternating currents. two commutators

  • a dynamo uses magnetic fields to create a direct current. one split commutator

  • Change the size of the magnetic field then the size of the current increases

    => also happens if we increase => the number of turns

    => the area of the coil

  • changing the rotation speed leads to increase in both size and frequency of the current.

    Transformers

  • consists of two or more coils of wire wrapped around the same magnetic field.

  • If a DC current passes through then the transformer behaves the same way as if they were replaced with normal wires

  • if an AC current passes through one coil causes current to also flow in the other coil.

  • Depending on how many turns are in each coil, the transformers can mak the voltage bigger or smaller

    => more turns=> higher voltage→more energy per particle

    =>less turns=> lower voltage→ less energy per particle

  • the transformers does not create or destroy energy it only moves the particles from one side to another

  • the number of charged particles flowing each second is what we refer to as the current

  • lower voltage <=> higher current

  • Higher voltage <=> lower current