Electricity

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    Created by
    Francis I

    Cards (23)

    • Electrical Charge

      • Circuit must be closed (no open switches)
      • There must be a source of potential difference (battery/cell)
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    • Electrical Current

      • Flow of electrical charge
      • Greater the rate of flow of charge, greater current
      • Q = It (Charge = Current x Time)
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    • In a single closed loop, the current has the same value at any point
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    • Current, potential difference and resistance
      V = IR (Potential Difference = Current x Resistance)
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    • Resistors
      • If resistance is constant, current is directly proportional to potential difference (linear graph)
      • If resistance changes with current, graph is non-linear
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    • How resistance changes

      1. With current (as current increases, electrons have more energy and collide more with atoms, increasing resistance)
      2. With temperature (normal wires - atoms vibrate more when hot, increasing resistance; thermistors - resistance decreases with higher temperature)
      3. With length (greater length means more atoms for electrons to pass through, increasing resistance)
      4. With light (LDRs - greater light intensity, lower resistance)
      5. With voltage (diodes - allow current to flow freely in one direction, high resistance in opposite direction)
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    • Series Circuits
      Closed circuit, current only follows a single path, current is the same everywhere, total resistance = sum of individual resistances
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    • Parallel Circuits

      Branched circuit, current splits into multiple paths, potential difference is the same across each branch, total resistance is less than the smallest resistance
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    • Differences between Series and Parallel Circuits

      • Series: Components connected end to end, all current flows through all components, can only switch all off at once, potential difference shared across circuit, current same through all parts
      • Parallel: Components connected separately to power supply, current flows through each separately, can switch each off individually, potential difference same across all branches, current shared between branches
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    • Mains Electricity
      AC supply, 50 Hz frequency, 230 V in UK
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    • AC and DC
      AC - alternating current, current continuously varies from positive to negative
      DC - direct current, charge moves in one direction only
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    • Plug Wires
      • Live wire (brown, 230 V)
      Neutral wire (blue, 0 V)
      Earth wire (green and yellow, 0 V, safety wire)
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    • Power
      Energy transferred per second, proportional to current and voltage, power loss proportional to resistance and square of current
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    • Energy transferred = Power x Time = Charge x Potential Difference
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    • National Grid

      • System of cables and transformers linking power stations to consumers
      Step-up transformers increase potential difference from power station to grid (reducing current and energy loss)
      Step-down transformers decrease potential difference from grid to consumers (for safety)
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    • Charge
      Property of all matter, positive and negative charges exist, like charges repel, opposite charges attract
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    • Insulators and Conductors

      Insulators - electrons fixed, cannot flow
      Conductors - electrons can flow, are delocalised
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    • Static Electricity

      Rubbing insulators transfers electrons, forming positive and negative charges
      Sparking occurs when enough charge builds up and jumps between objects
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    • Electrostatic Forces

      Greater charge = greater force
      Closer together = greater force (inverse square of distance)
      Non-contact force
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    • Electric Fields
      Point in direction a positive charge would go (away from positive, towards negative)
      Stronger charge = more field lines = stronger force
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    • The current is the rate at which charge flows through an object
    • Current = Charge / Time
    • Electric potential difference (V) is measured in volts, V
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