physics p1 - electricity

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Created by
Millie Hunt

Cards (20)

  • I-V characteristics- PD
    potential difference (V)
    measured in volts
  • I-V characteristics- FL

    filament lamps
    as temp increases, resistance increases
  • I-V characteristics- D

    diodes
    current can only flow in one direction
  • I-V characteristics- OC

    ohmic conductors
    resistors- resistance stays consistent
    applies at constant temp
    current is directly proportional to potential difference
  • static electricity- electrons
    rubbing insulating materials together rubs electrons off one material and onto another
    material gaining electrons becomes negatively charged
  • static electricity
    charged object produces an electric field around itself
    field lines point from positive to negative
  • mains electricity- EW

    earth wire
    green and yellow stripes
    prevents appliance from becoming live
  • mains electricity- NW

    neutral wire
    blue
    completes the circuit
  • mains electricity- LW

    live wire
    brown
    mains electricity voltage is 230V
  • national grid- PL
    power lines
    transports current at a very high voltage
    higher voltage reduces energy loss
  • national grid- S-DT

    step down transformer
    voltage decreases
    used between power lines and houses
  • national grid- S-UT

    step up transformer
    voltage increases
    used between power stations and power lines
  • circuit arrangement- AC
    alternating current
    direction of current flow continually changes
  • circuit arrangement- PC

    parallel circuit
    current is split between branches
    potential difference across each branch is the same
    (1/R=1/R=1/R1+1/R1+1/R21/R2)
  • circuit arrangement- SC
    series circuit
    current is constant
    (R=R1+R2)
  • circuit arrangement- DC
    direct current
    current flows in one direction
  • electrical conductors and quantities- C(Q)
    charge (Q)
    measured in coulombs
    can only flow if there is a source of potential difference
    (E=QV)(Q=It)
  • electrical conductors and quantities- R(R)
    resistance (R)
    measured in ohms
    how hard it is for current to flow
  • electrical conductors and quantities- C(I)
    current (I)
    measured in amps
    the rate of flow of charge
    (V=IR)
  • electrical conductors and quantities- P(W)

    power (W)
    measured in Watts
    rate of energy transfer
    (E=Pt)
    (P=P=I2RI^2R)(P=IV)