Inquiry to Life Chapter 17

अब Quizwiz के साथ अपने होमवर्क और परीक्षाओं को एस करें!

The nerve impulse has a resting potential of what?

-65mL

When the sodium gates open, the membrane potential changes from what to what?

-65mV to +40mV

In a milunated action potential, gated ion channels are concentrated in what?

Nodes of Ranvier

What generates an action potential?

a threshold

What is an effector?

a type of muscle

If a threshold is reached in a nerve impulse, what occurs?

action potential

What does the myelin sheath do in the peripheral nervous system?

acts as an insulator

What do the potassium gates change the membrane potential charge to?

back to -65mV

What do motor neurons do?

carry messages from the CNS to an effector

Where are excitatory signals?

close to the firing

What is the function of the myelin sheath?

covers some axons

What are the three parts of a neuron?

dendrites, cell body, axon

What is the change from negative to positive charge mean?

depolarization

What does the peripheral nervous system consist of?

everything but the brain and spinal cord

true or false: The CNS tissue is only composed of gray matter

false

Where are inhibitory signals?

farther from the firing

What are the nodes of ranvier?

gaps in the myelin sheath

What does synaptic integration determine?

if an action potential will travel along an axon

Where are interneurons located?

in the CNS

Where is potassium located during resting potential?

inside

When action potential is prevented from moving backwards, the sodium potassium pump causes what to happen?

ions to restore to original positions

In milunated action potential, the Nodes of Ranvier do what, and what is the scientific name for this action?

jump from node to node and saltatory conduction

When sodium gates cannot open, it prevents the action potential from what?

moving backwards

What are the two main types of cells in the nervous system?

neurons and neurological cells

What occurs during a synapse?

neurons are separated by the synaptic cleft

What is the myelin sheath in the central nervous system formed by?

oligodendroglial cells

In a non-milunated action potential, the action potential travels down what?

one small segment at a time

In a refractory period, sodium gates cannot do what?

open

Where is sodium located during resting potential?

outside

What gates open second?

potassium gates

What are the two types of synaptic neurons?

presynaptic neurons and postsynaptic neurons

What do interneurons do?

recieve input from sensory neurons and other interneurons

As soon as action potential moves on, the previous section under-gos what?

refractory period

What is it called when something is brought back to its original polarity?

repolarization

What is the myelin sheath formed by in the peripheral nervous system?

schwan cells

What do sensory neurons do?

send messages to the CNS

What are the three classes of neurons?

sensory, interneurons, motor neurons

The membrane is somewhat permeable to what?

sodium and potassium

What are the two types of gated channel proteins required for action potential?

sodium and potassium gated channels

What gates open first?

sodium gates

What do neurological cells do?

support and nourish neurons

What is transmission across a synapse called?

synaptic integration

What does the central nervous system consist of?

the brain and spinal cord

What are the two anatomical divisions of the nervous system?

the central (CNS) and peripheral (PNS)

During synaptic integration, a single neuron can receive many signals from where?

the excitatory and inhibitory signals

The strong impulse does not change the rate of action potential, but it changes what?

the frequency of firing

Where does a neurotransmitter cross in a synapse?

the presynaptic membrane

How is resting potential maintained?

the sodium-potassium pump

What is synaptic integration?

the summing up of excitatory and inhibitory signals

What is the function of the sodium potassium pump?

to actively transport sodium and potassium in

What is the purpose to excitatory signals?

to depolarize

What is the purpose of inhibitory signals?

to repolarize

What do neurons do?

transmit nerve impulses

true or false: Gray matter is located on the surface layer of the brain and the central part of the spinal cord

true

true or false: White matter is located deep in the brain

true

true or false: White matter surrounds gray matter in the spinal cord

true

true or false: action potential travels faster in milunated action potential than non-milunated action potential.

true

true or false: there is little nerve regeneration in the CNS

true

When is the presynaptic membrane released?

when action potential reachers an axon terminal


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