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physics > transformers - electromagnetic induction > Flashcards

transformers - electromagnetic induction Flashcards

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1
Q

why do we use alternating currents

A

so there is a change in flux linkage in the secondary coil

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2
Q

explain how an alternating current is induced in the secondary coil

A
  • alternating pd across the primary coil therefore there is an alternating current across the primary coil
  • alternating magnetic field around the primary coil
  • therefore, the flux linkage is alternating in the secondary coil
  • therefore there is an induced emf in the secondary coil and therefore, there is an alternating current across the secondary coil
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3
Q

what is a step up transformer

A
  • Vs > Vp
  • Ns > Np
  • increases the voltage by having more turns on the secondary coil than the primary
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4
Q

what is a step down transformer

A
  • Vs < Vp
  • Ns < Np
  • reduce the voltage by having fewer turns on the secondary coil
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5
Q

why do we want to use transformers

A
  • step up in power stations so we have a high voltage and low current for transmission power - this reduces energy losses in transmission lines as P = I^2R
  • step down transformer is then used at the sub-station at our homes/factories
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6
Q

why is a soft iron core used

A
  • to direct the magnetic field from the primary coil to the secondary coil
  • soft iron is easily magnetised and demagnetised so there is less energy dissipated due to hysteresis
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7
Q

what could be done to reduce the eddy currents in the core

A
  • laminate the core: thin layers of iron separated by layers of insulator
  • the insulator has a high resistivity and the thin layers of iron also mean higher resistance
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8
Q

what equation can we use if transformer is 100%

A

IpVp = IsVs

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9
Q

why might the transformer not be 100% efficient

A
  • energy dissipated in the wires (heat) due to resistance
  • eddy currents in the iron core (energy is dissipated as heat)
  • there are energy losses due to heating as the core is magnetised and demagnetised (this is hysteresis)
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10
Q

what is the step up voltage in the national grid for transmission

A

around 400 000 v

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11
Q

what is the step down voltage for use at home

A

230 v

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physics (11 decks)

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