5.3.2 Generation and transmission of nerve impulses

    Cards (48)

    • When a cell is not transmitting signals, it maintains a resting potential of approximately -70 mV.
    • Sodium ion concentration is higher inside the cell than outside.
      False
    • What is depolarization?
      Membrane potential becomes less negative
    • An action potential involves a sudden influx of Na+ ions followed by an efflux of K+ ions.

      True
    • An action potential is triggered by a threshold level of depolarization.
    • Match the process with its ion movement:
      Depolarization ↔️ Na+ influx
      Repolarization ↔️ K+ efflux
    • Hyperpolarization makes the membrane potential more negative than the resting potential.

      True
    • Ion channels are specialized proteins that allow the selective passage of specific ions across the cell membrane.
    • Sodium channels open during depolarization to allow Na+ influx

      True
    • What ion is involved in neurotransmitter release at synapses?
      Calcium
    • What is membrane potential defined as?
      Electrical potential difference
    • How many Na+ ions does the sodium-potassium pump transport out of the cell?
      3
    • Potassium ion leakage through channels contributes to the negative charge inside the cell
      True
    • What is membrane potential?
      Electrical potential difference
    • How many Na+ ions are transported out of the cell by the sodium-potassium pump?
      3
    • Potassium ions leak out through potassium ion channels creating a negative charge inside the cell.
    • What ions move during the depolarization phase of an action potential?
      Na+ influx
    • Repolarization occurs when potassium ion channels open, allowing potassium (K+) ions to flow out of the cell.
    • What pump restores the normal resting potential after hyperpolarization?
      Sodium-potassium pump
    • What are ion channels composed of?
      Specialized proteins
    • Potassium channels open during repolarization to allow K+ efflux
    • The selective permeability of ion channels is crucial for maintaining electrochemical gradients
      True
    • The resting potential of a neuron is approximately -70 mV
    • What pump helps maintain the resting potential of a cell?
      Sodium-potassium pump
    • What causes depolarization in a neuron?
      Na+ influx
    • An action potential involves both Na+ influx and K+ efflux

      True
    • Depolarization results in a membrane potential that becomes less negative
    • Hyperpolarization makes the membrane potential more negative than the resting potential
      True
    • The sodium-potassium pump restores the normal resting potential
    • Hyperpolarization occurs when the membrane potential becomes more negative
    • Which pump helps restore the normal resting potential after hyperpolarization?
      Sodium-Potassium Pump
    • Ion channels allow the selective passage of ions such as sodium, potassium, and calcium.

      True
    • The selective permeability of ion channels is crucial for maintaining electrochemical gradients
    • What is the insulating structure that wraps the axon in myelinated neurons?
      Myelin Sheath
    • Saltatory conduction allows action potentials to "jump" between nodes of Ranvier, increasing propagation speed.

      True
    • Saltatory conduction is the mechanism of impulse propagation in unmyelinated neurons.
      False
    • Why is the refractory period important for nerve impulse transmission?
      Prevents overexcitation
    • An action potential is triggered by a sufficient level of depolarization
    • What is the ion movement during depolarization?
      Na+ influx
    • What ion movement occurs during repolarization?
      K+ efflux