Electricty

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    Daisy

    Cards (26)

    • Electrical Charge
      For charge to flow: Circuit must be closed (no open switches), There must be a source of potential difference (battery/cell)
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    • Electrical Current
      Current is the flow of electrical charge, Greater the rate of flow of charge, greater current, Q = It where Q is the charge flow, I is the current, and t is the 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
      The current (I) through a component depends on both the resistance (R) of the component and the potential difference (V) across the component, V = IR
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    • Ohmic conductors
      • If the resistance is constant, current is directly proportional to the potential difference, graph is linear
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    • Non-ohmic conductors
      • If the resistance of components such as lamps, diodes, thermistors and LDRs is not constant, it changes with the current through the component, so the graph is nonlinear
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    • How resistance changes with current
      As current increases, electrons (charge) has more energy, When electrons flow through a resistor, they collide with the atoms in the resistor, This transfers energy to the atoms, causing them to vibrate more, This makes it more difficult for electrons to flow through the resistor, So resistance increases, and current decreases
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    • How resistance changes with temperature
      Normal wires - Same process as current, atoms vibrate when hot, Thermistor - In hotter temperatures the resistance is lower
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    • Resistance changes with length
      The greater the length, the more resistance and the lower the current, Electrons have to make their way through more resistor atoms, so it is harder than using a shorter wire
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    • Resistance changes with light
      LDR (Light Dependent Resistor) - The greater the intensity of light, the lower the resistance, So the resistance is greatest when it is dark
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    • Resistance changes with voltage
      Diodes - Allow current to flow freely in one direction, In the opposite direction, it has a very high resistance so no current can flow
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    • Series Circuits
      • Closed circuit, Current only follows a single path, The current is the same everywhere, Total Resistance = R1 + R2 + ...
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    • Parallel Circuits

      • Branched circuit, Current splits into multiple paths, Total current into a junction = total current in each of the branches, The potential difference is the same across each "branch"
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    • The total resistance for two resistors in parallel is less than the resistance of the smallest resistor
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    • Differences between Series and Parallel Circuits
      • Series: Components are connected end to end, All the current flows through all the components, Can only switch them all off at once, Potential difference is shared across the whole circuit, Current is the same through all parts of the circuit, Total Resistance is the sum of the resistance in each component
      • Parallel: Components are connected separately to the power supply, Current flows through each one separately, You can switch each component off individually, Potential difference is the same across all branches, Current is shared between each of the branches, Total resistance is less than the branch with the smallest resistance
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    • Mains electricity
      AC supply, In the United Kingdom the domestic electricity supply has a frequency of 50 Hz and is about 230 V, AC is alternating current, which comes from the mains, DC is direct current, which comes from cells and batteries
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    • Wires in a plug
      • Live wire - Brown, at 230V, Carries the alternating potential difference from the supply
      • Neutral Wire - Blue, at 0V, Completes the circuit
      • Earth wire - Green and Yellow stripes, at 0V, Safety wire to stop the appliance becoming live
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    • Power
      Power is the energy transferred per second, It is directly proportional to current and voltage, Power loss is proportional to resistance, and to the square of the current, Energy is transferred from chemical potential in batteries to electrical energy in wires to any form of useful energy in the devices they power, E = Pt, E = QV
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    • Electrical energy may be transferred by the appliance in different ways: Kinetic energy for a motor, Thermal energy in a kettle, Work done is when charge flows through a circuit, and is also equal to energy transferred, as all the electrical energy (ideally) gets transferred to the appliance
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    • National Grid
      The National Grid is a system of cables and transformers linking power stations to consumers across the UK, Step-up Transformers increase the pd from the power station to the National Grid so current decreases and less energy is lost, Step-down Transformers decrease the pd from the National Grid to consumers for safety
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    • Charge
      A property of all matter, Positive and negative charges exist, If a body has the same amount of positive and negative charge, they cancel out, forming a neutral body, Like charges repel, Opposite charges attract
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    • Insulators
      Their electrons cannot flow throughout the material, they are fixed
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    • Conductors
      Their electrons can flow, and are not fixed (they are delocalised)
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    • Static Electricity
      When two insulators are rubbed together, Electrons are transferred from one object to the other, Forming a positive charge on one object and a negative charge on the other, If conductors were rubbed, electrons will flow in/out of them cancelling out any effect, so they stay neutral, Sparking occurs when enough charge builds up, and the objects are close but not touching
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    • Electrostatic forces
      The charged objects experience a force – electrostatic force (of attraction/repulsion), Greater charge = greater force, Closer together = greater force (force is proportional to the inverse square of the distance), It is a noncontact force, as force can be felt even when the objects are not touching
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    • Electric Fields
      Like magnetic fields for magnets, electric fields are for charges, They point in the direction a positive charge would go i.e. away from positive charges, and towards negative charges, They point to charges at right angles to the surface, Stronger the charge, the more field lines present and the stronger the force felt, Closer to the charge, the stronger the force felt
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