Ch 10

Question 1

Detects changes, makes decisions, stimulates muscles and glands to respond, and maintains homeostasis:

Answer 1

nervous system

Question 2

React to changes and sends nerve impulses for communication:

Answer 2

neurons

Question 3

Surround and support neurons, nourish neurons, sends and receive messages, help and maintain blood brain barrier

Answer 3

neuroglia

Question 4

What is the CNS made up of?

Answer 4

brain and spinal cord

Question 5

What is the PNS made up of?

Answer 5

cranial nerves and spinal nerves

Question 6

The sensory division of PNS takes impulses where?

Answer 6

to the brain and spinal cord

Question 7

The motor division of PNS takes impulses where?

Answer 7

away from the brain and spinal cord

Question 8

Somatic nervous system:

Answer 8

skeletal muscle

Question 9

Autonomic nervous system:

Answer 9

smooth muscle, cardiac muscle, glands

Question 10

Sensory functions do what?

Answer 10

receive info

Question 11

The integrative function does what?

Answer 11

coordinates sensory info to create sensations

Question 12

Motor function does what?

Answer 12

decisions are acted upon

Question 13

This is a division of motor protons of PNS that transmits voluntary instructions to skeletal muscles

Answer 13

somatic nervous system

Question 14

This is a division of motor protons of PNS that transmits involuntary instructions from the CNS to smooth muscles, cardiac muscles, and glands

Answer 14

autonomic nervous system

Question 15

T or F neurons vary in size and shape

Answer 15

T

Question 16

Contains nucleus, cytoplasm, organelles, neurofilaments, chromatophilic substance:

Answer 16

cell body

Question 17

Branched receptive surfaces:

Answer 17

dendrites

Question 18

Transmits impulses and releases neurotransmitters to another neuron:

Answer 18

axon

Question 19

What are Schwann cells composed of?

Answer 19

myelin and myelin sheath

Question 20

PNS neuroglia that encase axons in a sheath:

Answer 20

Schwann cells

Question 21

Gaps in myelin sheath between Schwann cells:

Answer 21

Nodes of Ranvier

Question 22

In the PNS have a series of Schwann cells lined up along the axon, each having a wrapped coating of myelin insulating the axon:

Answer 22

myelinated axons

Question 23

Are encased by Schwann cell cytoplasm, but there is no wrapped coating of myelin surrounding the axons:

Answer 23

unmyelinated axons

Question 24

Multipolar neurons, bipolar neurons, and unipolar neurons are classification of neurons by what?

Answer 24

structure

Question 25

99% of neurons, many processes (dendrites), most neurons of CNS:

Answer 25

multipolar neurons

Question 26

Two processes and consists of eyes, ears, nose:

Answer 26

bipolar neurons

Question 27

One process, cell bodies are in ganglia, sensory:

Answer 27

unipolar neurons

Question 28

Sensory neurons, interneurons, motor neurons are classification of neurons by what?

Answer 28

function

Question 29

Carry impulses to CNS, most are unipolar, some are bipolar:

Answer 29

sensory neurons

Question 30

Link neurons, multipolar, located in CNS:

Answer 30

interneurons

Question 31

Multipolar, carry impulses away from CNS, carry impulses to effectors:

Answer 31

motor neurons

Question 32

What are 3 general functions of neuroglia?

Answer 32

• provide structural support for neurons
• produce growth factors to nourish neurons
• aid in formation of synapses

Question 33

Connects neurons to blood vessels, form scar tissue, regulate ion concentration, part of blood brain barrier:

Answer 33

astrocytes

Question 34

Myelinated CNS axons and provide structural support:

Answer 34

oligodendrocytes

Question 35

Phagocytic cell and provides structural support:

Answer 35

microglia

Question 36

Lines central canal of spinal cord and ventricles of brain, help regulate composition of cerebrospinal fluid:

Answer 36

ependyma

Question 37

Speed up nerve impulse transmission:

Answer 37

Schwann cells

Question 38

Support clusters of neuron cell bodies:

Answer 38

Satellite cells

Question 39

When does a neuron die?

Answer 39

when cell body is injured

Question 40

(Neuron Regeneration of PNS) If a peripheral axon is injured, it may what?

Answer 40

regenerate

Question 41

(Neuron Regeneration of PNS) Schwann cells and _______ remain.

Answer 41

neurilemma

Question 42

(Neuron Regeneration of CNS) What do CNS axons lack?

Answer 42

neurilemma

Question 43

(Neuron Regeneration of CNS) Is regenerating likely in this?

Answer 43

No

Question 44

How do neurons communicate with each other?

Answer 44

synapses

Question 45

A site at which a neuron transmits a nerve impulse to another neuron:

Answer 45

synapse

Question 46

Send impulses:

Answer 46

presynaptic neuron

Question 47

Receives impulses:

Answer 47

postsynaptic neuron

Question 48

What separates these two neurons?

Answer 48

synaptic cleft

Question 49

How does synaptic transmission work:

Answer 49

impulse travels down axon of presynaptic neuron

Question 50

When impulse in synaptic transmission reaches synaptic knob, causes influx of ________.

Answer 50

Ca+2

Question 51

This leaves to the release of what?

Answer 51

neurotransmitters

Question 52

Electrically charged:

Answer 52

polarized

Question 53

The inside of the membrane is what kind of charge?

The outside of the membrane is what kind of charge?

Answer 53

negative, positive

Question 54

Major intracellular positive ions:

Answer 54

K+ ions

Question 55

Major extracellular positive ions:

Answer 55

Na+ ions

Question 56

Transports 3 Na+ ions out of cell and 2 K+ ions into cell:

Answer 56

Na+/K+ Pump

Question 57

Formed by membrane proteins, help regulate passage of specific ions into or out of cell:

Answer 57

Ion channels

Question 58

Resting neuron is one that is do what?

Answer 58

not being stimulated

Question 59

_____ potential difference form inside to outside of cell

Answer 59

70 mV

Question 60

In a polarized membrane more K+ ions are ________ and more Na+ ions are ______ of the cell.

Answer 60

inside, outside

Question 61

Neurons are what kind of cells?

Answer 61

excitable

Question 62

When membrane potential becomes more negative, the membrane is:

Answer 62

hyperpolarized

Question 63

When membrane potential becomes less negative, the membrane is:

Answer 63

depolarized

Question 64

When does action potential occur?

Answer 64

if degree of depolarization reaches threshold potential

Question 65

At rest, the membrane is:

Answer 65

polarized (RMP= -70)

Question 66

Threshold stimulus:

Answer 66

reached (-55 mV)

Question 67

Sodium channels open and membrane:

Answer 67

depolarizes

Question 68

Potassium leaves cytoplasm and membrane:

Answer 68

repolarizes

Question 69

Action potentials are propagated down the length of the axon as:

Answer 69

nerve impulses

Question 70

An action potential is a what kind of response?

Answer 70

all or none

Question 71

If a neuron axon responds at all, it responds:

Answer 71

completely

Question 72

All impulses carried on an axon are:

Answer 72

the same strength

Question 73

Stimulus of greater intensity produce what kind of frequency of action potentials?

Answer 73

higher

Question 74

During an impulse, the portion of the axon actively conducting the action potential is not able to respond to another threshold stimulus of normal strength:

Answer 74

refractory period

Question 75

• Time when threshold stimulus cannot generate another action potential:
• Voltage-gated Na+ channels are briefly unresponsive:

Answer 75

absolute refractory period

Question 76

• Time when only high-intensity stimulus can generate another action potential:
• Repolarization is not complete:

Answer 76

relative refractory period

Question 77

Refractory period _________ number of action potentials generated per second.

Answer 77

limits

Question 78

The speed of impulse conduction varies with:

Answer 78

myelination

Question 79

Myelin is rich in lipids, and prevents water and water-soluble substance from crossing membrane; acts as

Answer 79

electrical insulator

Question 80

Ions can cross membrane only through gaps in myelin sheath called:

Answer 80

Nodes of Ranvier

Question 81

Myelinated axons transmits impulses through _______ _______ in which action potentials “jump” from node to node down the axon.

Answer 81

saltatory conduction

Question 82

What also affects conduction speed?

Answer 82

axon diameter

Question 83

Thick or thin axons transmit faster?

Answer 83

thick

Question 84

• Reduces gradient for K+ to leave cell
• Threshold potential reached with stimulus of lower intensity
• Leads to excitable neurons, perhaps convulsions

Answer 84

increase in concentration of K+

Question 85

• Neurons can become hyper polarized
• Action potentials are not generated
• Lack of impulses leads to muscle paralysis

Answer 85

decrease in concentration of K+

Question 86

• Can be caused by some anesthetic drugs
• Stops impulses from passing through tissue fluid around axon
• Impulses do not reach brain
• There is no perception of touch and pain

Answer 86

Decrease in permeability to Na+ ions

Question 87

Transmission of a nerve impulse from one neuron to another:

Answer 87

synaptic transmission

Question 88

Local potentials resulting from changes in chemically gated ion channels are called:

Answer 88

synaptic potential

Question 89

Increase permeability to Na+ ions, bring membrane closer to threshold, increase likelihood of generating impulses:

Answer 89

excitatory neurotransmitters

Question 90

Move membrane farther from threshold, decrease likelihood of generating impulses:

Answer 90

inhibitory neurotransmitters

Question 91

• Membrane change in which neurotransmitters opens Na+ channels
• Depolarizes membrane
• Action potential in postsynaptic neuron becomes more likely

Answer 91

excitatory postsynaptic potential

Question 92

• Membrane change in which neurotransmitter opens K+ channels
• Hyperpolarizes membrane
• Action potential of postsynaptic neuron becomes less likely

Answer 92

inhibitory postsynaptic potential

Question 93

EPSPs and IPSPs are added together in a process called:

Answer 93

summation

Question 94

This leads to greater probability of an action potential:

Answer 94

net excitatory effect

Question 95

This does not generate action potential:

Answer 95

net inhibitory

Question 96

Summation of all inputs usually occurs where?

Answer 96

The trigger zone

Question 97

Where are neurotransmitters produced?

Answer 97

rough ER and cytoplasm

Question 98

When impulse reaches synaptic knob of axon, neurotransmitters are released by __________.

Answer 98

exocytosis

Question 99

• Process of membrane recycling
• Synaptic vesicle becomes part of cell membrane as it releases neurotransmitters
• Endocytosis returns membrane to cytoplasm; forms new vesicles

Answer 99

vesicle trafficking

Question 100

Neurons in brain or spinal cord synthesize what?

Answer 100

neuropeptides

Question 101

Some neuropeptides act as what?

Answer 101

neurotransmitters

Question 102

Substances which alter a neuron’s response to a neurotransmitter or block the release of a neurotransmitter:

Answer 102

neuromodulators

Question 103

Human body produces opiated called:

Answer 103

endorphins

Question 104

Groups of interneurons that make synaptic connections with each other, and are located completely within the CNS:

Answer 104

neuronal pools

Question 105

• Increased neurotransmitter release, resulting from repeated impulses on excitatory presynaptic neurons
• Increases likelihood that postsynaptic cell will reach threshold

Answer 105

facilitation

Question 106

• One neuron receives input from several neurons

- Makes it possible for a neuron to sum impulses from different sources

Answer 106

convergence

Question 107

• One neuron sends impulses to several neurons, via branching of its axon
• Can amplify an impulse
• Activate several motor units in skeletal muscle

Answer 107

divergence

Question 108

A drug that binds to receptor, and blocks neurotransmitter binding:

Answer 108

antagonist

Question 109

A drug that activates receptor, causing action potential or aiding in binding of neurotransmitter:

Answer 109

agonist