A) initiating signal transduction pathways in the cells.
B) causing molecular changes in the cells.
C) affecting ion-channel proteins.
D) altering the permeability of the cells.
E) All of these options are correct.
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A) The membrane potential would decrease.
B) The membrane potential would increase.
C) The membrane potential would be unaffected.
D) The membrane potential depends on the thermodynamic potential.
E) The membrane potential depends on the concentration of K⁺
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A) The action potential would be propagated nearly instantaneously to the synapse.
B) There would be no action potential generated at the axon hillock.
C) The signal would fade because it is not renewed by the opening of more sodium channels.
D) The action potential would be slower than normal for that length of axon.
E) The action potential would be more negative than normal.
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A) a loss in conduction speed of action potentials
B) an increase in conduction speed of action potentials.
C) consistent depolarization at the nodes of Ranvier.
D) increased saltatory conduction.
E) an increased diameter of the axon.
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A) only III
B) only I and II
C) only II and III
D) only I and III
E) I, II, and III
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A) permitting passage by positive but not negative ions.
B) permitting passage by negative but not positive ions.
C) ability to change its size depending on the ion needing transport.
D) binding with only one type of neurotransmitter.
E) permitting passage only to a specific ion.
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A) the synaptic cleft will close.
B) muscle contraction will cease.
C) the post-synaptic cell will die.
D) muscles will spasm.
E) receptor ion channels will remain open.
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A) ligand-gated ion channels.
B) second-messenger-gated ion channels.
C) electrical synapses.
D) inhibitory, but not excitatory, synapses.
E) excitatory, but not inhibitory, synapses.
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A) a voltage-gated sodium channel.
B) a voltage-gated potassium channel.
C) a ligand-gated sodium channel.
D) a second-messenger-gated sodium channel.
E) a chemical that inhibits action potentials.
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A) slow opening of voltage-gated sodium channels.
B) sustained opening of voltage-gated potassium channels.
C) rapid opening of voltage-gated calcium channels.
D) slow restorative actions of the sodium-potassium ATPase.
E) ions that move away from their open ion channels.
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A) stimuli → sensory neuron → sensory nerve → CNS → PNS
B) stimuli → sensory nerve → sensory neuron → PNS → CNS
C) stimuli → sensory neuron → sensory nerve → PNS → CNS
D) stimuli → sensory nerve → sensory neuron → CNS → PNS
E) sensory nerve → stimuli → sensory neuron → PNS → CNS
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A) are always open, but the concentration gradients of ions frequently change.
B) are always closed, but ions move closer to the channels during excitation.
C) open and close depending on stimuli, and are specific as to which ion can traverse them.
D) open and close depending on chemical messengers, and are nonspecific as to which ion can traverse them.
E) open in response to stimuli, and then close simultaneously, in unison.
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A) acetylcholine.
B) epinephrine.
C) endorphin.
D) nitric oxide.
E) GABA.
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A) K⁺
B) Na⁺
C) Ca²⁺
D) Cl⁻
E) H₂O
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A) Action potentials for a given neuron vary in magnitude.
B) Action potentials for a given neuron vary in duration.
C) Action potentials are propagated down the length of the axon.
D) Movement of ions during the action potential occurs mostly through the Na⁺ pump.
E) Action potentials of all cells are of the same speed.
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A) sodium and potassium ions into the cell.
B) sodium and potassium ions out of the cell.
C) sodium ions into the cell and potassium ions out of the cell.
D) sodium ions out of the cell and potassium ions into the cell.
E) sodium and potassium ions into the mitochondria.
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Correct Answer
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A) only I
B) only II
C) only III
D) only II and III
E) I, II and III
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A) acetylcholine.
B) epinephrine.
C) endorphin.
D) nitric oxide.
E) GABA.
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A) conduction of impulses across electrical synapses.
B) an action potential that skips the axon hillock in moving from the dendritic region to the axon terminal.
C) rapid movement of an action potential reverberating back and forth along a neuron.
D) jumping from one neuron to an adjacent neuron.
E) jumping from one node of Ranvier to the next in a myelinated neuron.
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A) the movement of sodium and potassium ions from the presynaptic neuron into the postsynaptic neuron.
B) impulses travelling as electrical currents across the gap.
C) impulses causing the release of a chemical signal and its diffusion across the gap.
D) impulses ricocheting back and forth across the gap.
E) the movement of calcium ions from the presynaptic into the postsynaptic neuron.
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