Lab 3
axon
Action potentials can maintain their amplitude and strength down the length of the ___. a. channel b. cell c. axon d. membrane
build, receptor
During memory, the cell will ____ more of these ____ proteins. a. remove, receptor b. build, receptor c. destroy, inhibitor d. build, inhibitor
through changes in the electrical potential of the membrane
How do neurons transmit information? a. through changes in the electrical potential of the mitochondria b. through changes in the electrical potential of the nucleus c. through changes in the electrical potential of the atoms d. through changes in the electrical potential of the membrane
summation
Multiple action potentials will combine at the axon hillock in a process known as: a. autolysis b. ciliation c. autophagy d. summation
dendrites
The arrows are indicating which structures? a. nuclei b. cell bodies c. mitochondria d. dendrites
the unequal distribution of potassium and sodium ions
The resting potential of a membrane of a neuron is established by: a. the equal distribution of potassium and calcium ions b. the unequal distribution of potassium and sodium ions c. the equal distribution of potassium and sodium ions d. the unequal distribution of potassium and calcium ions
action potential, depolarization
This ____ causes ____. a. action potential, neurotransmitting b. action potential, depolarization c. depolarization, action potential d. dendrite, action potentials
action potential
This arrow is pointing to what process? a. neurotransmitting b. synapse c. receptors d. action potential
motor neuron
To what type of cells is this arrow pointing? a. interneuron b. motor neuron c. none of these d. sensory neuron
sensory neuron
To what type of cells is this arrow pointing? a. sensory neuron b. motor neuron c. interneuron d. none of these
neurotransmitters
What are these structures known as? a. membranes b. neurotransmitters c. cells d. axons
docking proteins
What is the name given to these structures as indicated by the arrow? a. microglia b. receptors c. neurotransmitters d. docking proteins
action potential, depolarization, open voltage gated channels, dock to chemical on the surface of vesicles, vesicles merge and dump neurotransmitters
What is the sequence of events that is occurring during this reaction? a. action potential, depolarization, open voltage gated channels, dock to chemical on the surface of vesicles, vesicles merge and dump neurotransmitters b. depolarization, open voltage gated channels, dock to chemical on the surface of vesicles, vesicles merge and dump neurotransmitters, action potential c. depolarization, dock to chemical on the surface of vesicles, vesicles merge and dump neurotransmitters, action potential, open voltage gated channels d. action potential, depolarization, open voltage gated channels, vesicles merge and dump neurotransmitters, dock to chemical on the surface of vesicles
presynaptic vesicles
What is the term given to these as indicated by the arrow? a. presynaptic vesicles b. none of these c. postsynaptic vesicles d. synaptic vesicles
depolarization
What is the term to which these arrows are referring? a. polarization b. depolarization c. potentials d. actions
synaptic cleft
What is the term used for this region? a. gap region b. synaptic cleft c. subcutaneous fascia d. synaptic space
synaptic cleft
What is this region known as? a. synaptic space b. synaptic cleft c. none of these d. synaptic junction
excitatory
What type of messages are these as shown by the arrows? a. neither of these b. both of these c. excitatory d. inhibitory
skeletal
What type of muscle cells are these as being shown by the arrow? a. smooth b. skeletal c. none of these d. cardiac
chemically-gated
Which type of channel is this one indicated by the arrow? a. leak b. chemically-gated c. none of these d. voltage-gated
