Action potentials

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Created by
Zyva

Cards (39)

  • What is an action potential in neurons?
    Voltage increase beyond resting potential
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  • What is the resting potential of a neuron?
    -70 millivolts
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  • What causes depolarization in a neuron?
    Increased permeability to sodium ions
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  • What happens when the action potential is generated at one position?
    It triggers the next node of Ranvier
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  • What maintains the resting potential in a neuron?
    Sodium-potassium pump and ion channels
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  • What is the threshold potential for generating an action potential?
    -55 millivolts
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  • What occurs when the threshold is reached?
    More voltage-gated sodium channels open
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  • What is the peak voltage of an action potential?
    +40 millivolts
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  • What happens to sodium channels at +40 millivolts?
    They close
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  • What causes repolarization in a neuron?
    Opening of potassium ion channels
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  • What is hyperpolarization?
    Voltage drops below resting potential
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  • What is the refractory period?
    Time when neuron cannot fire another action potential
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  • Why is the refractory period important?
    Prevents overlap of action potentials
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  • How does the refractory period affect impulse direction?
    Ensures action potential travels forwards only
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  • What does the all-or-nothing principle state?
    Action potential occurs fully or not at all
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  • What happens with larger stimuli?
    Higher frequency of action potentials occurs
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  • Why is it important for animals to respond to large stimuli?
    Prevents overwhelming the senses
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  • What is the role of sodium channels during the refractory period?
    They are recovering and cannot open
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  • What are the key stages of an action potential?
    1. Resting potential: -70 mV
    2. Depolarization: Sodium ions enter
    3. Threshold: -55 mV
    4. Peak: +40 mV
    5. Repolarization: Potassium ions exit
    6. Hyperpolarization: Below -70 mV
    7. Refractory period: Cannot fire again
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  • What are the implications of the all-or-nothing principle?
    • Action potential is either fully generated or not
    • All action potentials peak at +40 mV
    • Larger stimuli increase firing frequency, not amplitude
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  • What are the functions of the refractory period?
    • Ensures discrete impulses
    • Prevents backward propagation
    • Limits action potential frequency
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  • How does the Mexican wave analogy relate to action potentials?
    • Action potentials propagate like a wave
    • Each node of Ranvier triggers the next
    • Discrete events occur along the axon
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  • What are the three key factors affecting the speed of conductance in an axon?
    • Myelination of the axon
    • Diameter of the axon
    • Temperature
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  • What is the effect of myelination on action potential conduction?
    It results in saltatory conduction
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  • What are the myelin sheaths made of?
    Lipids
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  • What do Schwann cells do?
    They wrap around the axon to form myelin sheath
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  • What are the gaps between myelin sheaths called?
    Nodes of Ranvier
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  • How does saltatory conduction speed up action potential movement?
    It allows action potentials to jump between nodes
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  • What happens in an unmyelinated axon regarding action potentials?
    Every part must generate an action potential
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  • How does the diameter of the axon affect conductance speed?
    A wider diameter increases conductance speed
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  • Why does a wider axon diameter reduce resistance?
    It allows fewer ions to leak out
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  • What is the threshold potential for action potentials?
    -55 mV
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  • How does temperature affect the speed of conductance?
    Higher temperature increases speed up to a limit
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  • What role does facilitated diffusion play in action potential generation?
    It increases ion movement at higher temperatures
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  • How does temperature influence ATP production?
    Higher temperatures increase ATP production
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  • What is the relationship between respiration and active transport?
    Respiration generates ATP for active transport
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  • What is the optimum temperature for enzyme activity related to action potentials?
    Typically body temperature
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  • What are the factors affecting the speed of conductance along an axon?
    • Myelination: Saltatory conduction
    • Diameter: Wider = faster conductance
    • Temperature: Higher = faster conduction
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    Give it a thumbs up
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