Electricity

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Created by
icedlatte

Cards (41)

  • To draw more complex circuits, knowledge of symbols for different components and their placement is required
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  • What is an electrical circuit
    A closed loop that contains a power source (e.g., a cell) and something for the electrons to flow through (e.g., a wire)
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  • Electrical circuits are generally represented with circuit diagrams
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  • Cells and batteries act in the same way in circuits
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  • Common symbols in circuit diagrams
    • Cell
    • Battery
    • Filament lamp
    • Switch
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  • A simple electrical circuit consists of a power source (e.g., a cell) and a wire for electrons to flow through
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  • Batteries are made up of two or more cells, and their symbol is two cell symbols put together
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  • Current
    A measure of the flow of electrons around the circuit, similar to the flow of water through a pipe, measured in amperes (amps)
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  • Potential difference (Voltage)

    The force driving the flow of electrons, provided by the cell or battery, measured in volts
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  • Resistance
    Everything that resists or opposes the flow of electrons, measured in ohms
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  • Conventional current flows from
    Positive terminal to negative terminal
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  • Electrons flow from
    Negative terminal to positive terminal
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  • Diodes only allow current to flow in one direction
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  • For different resistors, the line on the graph would be more or less steep
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  • Temperature staying constant is assumed for the analysis
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  • Temperature and resistance affect the behavior of filament lamps and diodes
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  • V equals IR is the most important equation in the electricity topic
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  • Higher currents generally cause wires to heat up
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  • As potential difference increases
    Current in the circuit also increases
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  • Filament lamps contain a thin metal filament that emits light as it heats up
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  • Relationship between voltage, current, and resistance
    As long as resistance stays constant, increasing voltage increases current proportionally or vice versa
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  • Lines in circuits containing only wires or resistors are straight due to constant resistance
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  • Effect of temperature on resistance
    If temperature increases, resistance also increases
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  • V equals IR
    Potential difference or voltage equals current times resistance
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  • Diodes have high resistance in the reverse direction to prevent current flow
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  • Graphs of filament lamps and diodes show different behaviors
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  • Smaller resistors require less potential difference to drive a large current
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  • Heat in filament lamps increases resistance, causing the curve to be less steep at higher currents
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  • Cell or battery is needed to provide electric power to a circuit

    Switch controls the flow of electricity by being either closed (allowing electricity to flow) or open (turning off the circuit)
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  • Light emitting diodes (LEDs)

    Emit light when current flows through in the forward direction
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  • Fuses
    Break if too much current flows through the circuit
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  • Thermistors
    Resistance is dependent on the temperature, with higher temperatures causing the resistance to fall and lower temperatures increasing the resistance
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  • Voltmeters
    Measure potential difference and are added in parallel
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  • Resistors
    Can be fixed to provide a certain number of ohms worth of resistance or can be variable to modify the amount of resistance they provide
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  • Main components needed to provide electric power to a circuit
    • Cell
    • Battery
    • Switch
    • Filament lamps
    • Fuses
    • Diodes
    • Light emitting diodes (LEDs)
    • Ammeters
    • Voltmeters
    • Resistors
    • Light dependent resistors (LDRs)
    • Thermistors
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  • Drawing circuit diagrams
    Requires knowledge of different components and their functions, as well as the symbols used to represent them
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  • Light dependent resistors (LDRs)

    Resistance is dependent on the intensity of light, with low resistance in bright light environments and high resistance in darkness
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  • Ammeters
    Measure current and are connected in series
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  • Diodes
    Only allow current to flow in one direction
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  • Thermistors are used as temperature receptors in things like car engines and electronic thermostats
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