2. Action potential

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    • When does action potential occur?
      When an impulse is being transmitted along an axon
    • What is the value of action potential?
      +40mV
    • How is action potential reached?
      • a stimulus causes a change in voltage, opening the voltage gated Na+ channel (membrane is permeable to Na+)
      • Na+ move into the axon rapidly by facilitated diffusion. This is DEPOLARISATION
      • Na+ move within the axon to the next node of Ranvier (this is a local circuit)
      • the presence of Na+ stimulates the opening of the voltage gated channel for Na+, so they move in
      • the action potential jumps along the axon from one node of Ranvier to the next, this is SALTATORY CONDUCTION
    • Why are low level background stimuli filtered out?
      The amount of depolarisation that they cause does not achieve the threshold value (-55mV)
    • If there is not enough depolarisation to reach threshold potential, no action potential is generated
    • What is the all or nothing law?
      The value of action potential is always +40mV, regardless of the nature or size of the stimulus.
    • A stronger stimulus can increase the frequency of an action potential
    • What factors can affect the speed of conduction of an impulse along an axon?
      -myelination
      -temperature
      -axon diameter
    • How does temperature affect the speed of conduction of an impulse?
      -increase in temperature increases the kinetic energy of molecules (e.g. Na+)
      -they move faster, so speed of conduction increases
      -but at higher temperatures, proteins denature (e.g. channel proteins), so speed decreases
    • How does axon diameter affect the speed of conduction of an impulse?
      -increase in diameter increases speed of conduction
      -wider axons have less internal resistance, easier for Na+ to move
      -wider axons have a larger surface area, so more protein channels are present
    • Summarise what happens during action potential.?
      -the axon membrane is depolarised
      -when sodium ion channels open, Na+ diffuse into the axoplasm
      -a stimulus causes Na+ to leak into the axoplasm
      -when threshold is reached (-55mV), all sodium ion channels open
      -if threshold is not reached, sodium ion leakage stops and no action potential is generated
      -the all or nothing law means that action potentials are always the same size
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