Exam 7: Nerve Cells and Electrical Signaling

A) afferent nervous system
B) somatic nervous system
C) efferent nervous system
D) enteric nervous system
E) central nervous system

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A) chloride : into
B) potassium : into
C) sodium : out of
D) sodium : into
E) potassium : out of

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A) It acts by blocking voltage -gated sodium channels which are needed to generate an action potential.
B) It acts on the hypothalamus of the brain, shutting down all neurological functions.
C) It prevents the synaptic vesicles from migrating to the axon terminal; therefore, no action potentials are generated.
D) It blocks ligand -gated channels on the postsynaptic membrane, which blocks signals leaving the central nervous system.
E) It acts on the potassium channels within a neuron, hyperpolarizing the cell membrane; therefore, no action potential can be generated.

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A) sodium (Na⁺)
B) potassium (K⁺)
C) chloride (Cl ^-)
D) calcium (Ca⁺⁺)
E) phosphate (PO₄ ^-)

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As an action potential is generated at t...

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A) efferent neuron
B) pseudo -unipolar neuron
C) afferent neuron
D) bipolar neuron
E) interneuron

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A) sodium (Na⁺)
B) potassium (K⁺)
C) chloride (Cl ^-)
D) calcium (Ca⁺⁺)
E) phosphate (PO₄ ^-)

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A) astrocytes
B) oligodendrocytes
C) microglia
D) ependymal cells
E) Schwann cell

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A) graded potentials
B) threshold potentials
C) action potentials
D) both graded potentials and action potentials
E) neither graded potentials nor action potentials

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A) spatial
B) multiplier
C) temporal
D) suprathreshold
E) subthreshold

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A) flux
B) current
C) conductance
D) voltage
E) impedance

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A) The regenerative mechanism
B) The all -or -none principle
C) Temporal summation
D) Electrotonic conduction
E) After -hyperpolarization

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The efferent division of the nervous sys...

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A) during the absolute refractory period
B) during the after -hyperpolarization
C) during depolarization
D) during the relative refractory period
E) at the resting membrane potential

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A) Potassium would leave the cell, causing the membrane to hyperpolarize.
B) Potassium is a cation; therefore, it would cause an excitatory depolarization.
C) Potassium is an inhibitory second messenger; therefore, it would cause amplification of the graded potential.
D) Potassium would reach its equilibrium potential and the voltage inside the cell would not change.
E) Potassium would enter the cell, causing the membrane to depolarize and reach threshold.

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