Electricity

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Created by
Izzy Richardson

Cards (38)

  • Q
    Charge = property of matter (Coulamb)
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  • Density of electrons
    • Conductor
    • Insulator
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  • Electric current
    The flow of charge per unit time or the rate of flow of charge
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  • Potential difference (V)
    The energy transferred per unit charge between two points in a circuit
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  • Resistance (R)
    A measure of how difficult it is for charge carriers to pass through a device or component, and is measured by dividing the potential difference across a component by the current flowing through it
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  • Resistance with increased temp

    • ↑ Collisions
    • more resistance
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  • Conventional Current
    Movement of positive charge
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  • Current-voltage characteristics
    • Electrons repelled by negative
    • Electrons all start drifting towards positive
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  • Ohm's law
    For an ohmic conductor, current is directly proportional to the potential difference across it, given that physical conditions (e.g. temperature) are kept constant
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  • Ohmic conductor
    • Current-voltage graph is a straight line through the origin
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  • Semiconductor diode
    • Must consider forward and reverse bias
    • Forward bias allows current to flow easily past threshold voltage
    • Reverse bias has extremely high resistance, only small current can flow
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  • Transverse wave demonstration
    1. Shaking a string vertically
    2. Waves seen on a string when attached to a fixed point
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  • Filament lamp

    Contains a length of metal wire, which heats up as current increases, therefore the resistance of this component increases as current increases
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  • For very low currents, Ohm's law is obeyed. However, as the current increases in either direction the graph begins to curve due to the increasing resistance.
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  • Ammeters
    Can be assumed to have zero resistance, meaning they will not affect the measurement of current in a circuit at all
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  • Voltmeters
    Can be assumed to have infinite resistance, meaning no current can flow through them, meaning their measurement of potential difference across a component is exact
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  • Resistivity (ρ)
    A measure of how easily a material conducts electricity, it is defined as the product of resistance and cross-sectional area, divided by the length of the material
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  • As the temperature of a metal conductor increases
    Its resistance will increase
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  • As the temperature of a thermistor increases
    Its resistance decreases
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  • Superconductor
    A material which, below a certain temperature (critical temperature), has zero resistivity
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  • Applications of superconductors
    • Power cables (reduce energy loss)
    • Super efficient wires
    • Strong magnetic fields (e.g. maglev trains, MRI)
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  • Series resistors
    Total resistance = R1 + R2 + R3 + ...
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  • Parallel resistors
    Total resistance = 1 / (1/R1 + 1/R2 + 1/R3 + ...)
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  • Calculating total resistance of a circuit
    1. Find resistance of parallel combinations
    2. Use series rule to add remaining resistors
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  • Power (P)
    The energy transferred over time (rate of transfer of energy)
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  • Calculating energy transferred and current in a lamp
    Use P = VI to find energy transferred
    Use I = V/R to find current
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  • Series circuit
    Current is the same everywhere in the circuit
    Battery p.d. is shared across all elements
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  • Parallel circuit

    Sum of currents in each parallel branch equals total current
    Potential difference across each branch is the same
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  • Joining battery cells in series

    Total voltage = sum of individual cell voltages
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  • Joining identical battery cells in parallel

    Total voltage = voltage of one cell
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  • Kirchhoff's first law
    Total current flowing into a junction equals current flowing out
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  • Kirchhoff's second law
    Sum of all voltages in a series circuit equals battery voltage
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  • Potential divider
    Circuit with resistors in series, used to produce a required fraction of the source potential difference
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  • Internal resistance (r)
    Caused by electrons colliding with atoms inside the battery, resulting in energy loss
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  • Electromotive force (emf, ε)

    Energy transferred by a cell per coulomb of charge that passes through it
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  • Measuring emf of a battery
    Measure voltage across cell with no current running (open circuit)
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  • Calculating current in a circuit with known emf, lost volts and resistance

    Use ε = IR + Ir to find current
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  • Calculating lost volts and internal resistance of a battery

    Use ε = V + v to find lost volts
    Use ε = IR + Ir to find internal resistance
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