psyc 101 ch2 book

Nervous system

- a communication network that conveys messages throughout your body, using electrical and chemical processes

The influx of the positive sodium ions is at the axon hillock raises the internal cell votage of the first segment of the axon from the resting voltage of

-70mV to the -55mV relative to the outside

In the human brain glia cells outnumber neurons by approximately

50 to 1

in the resting state, the voltage inside the cell is about

70 millivolts compared to the voltage on the outside

Nodes of Ranvier

The gap between myelin segments

All or none

a neuron either fires or does not fire; action potentials are always the same strength

the solutions on either side of the membrane wall come into equilibrium with

a slightly more negative charge inside

Because the proportion of sodium and potassium ions inside and outside the cell is not the same as before,

a sodium/potassium pump within the cell membrane brings them back to their original values.

If the total charge of the electrically charged solutions is different

a voltage will be generated between the outside and the inside of the cell

Because myelin is such a good insulator, it does not

allow the exchange of ion fluid between the inside and the outside of the cell membrane

The speed of action potential in an unmyelinated axon is

approximately 157 to 268 mph

process repeats through each segment of the axon, like

arrow of dominoes tumbling down

The message to fire begins

at the dendrites

Due not only to the force of diffusion but also to the force of

attraction that occurs between oppositely charged ions

Terminal buds

axon buds, synaptic knobs terminal buttons

The nervous system contains the

brain, spinal cord, other nerve fibers, and includes some 100 billion (1011) nerve cells

Electrostatic pressure

causes similarly charged ions to spread apart and oppositely charged ions to move toward each other

A typical neuron has three basic parts

cell body, dendrites, and an axon

The potassium gates open and the positive potassium ions now repelled by the much more positively charged

cell interior flow out of the cell as the similarly charged ions repel each other, and returns to resting potential

Glial cell

cells that support, nourish and protect neurons, produce myelin that convers axon

A single instructs the

channels in the membrane to open up

Neurotransmitters

chemical messengers that neurons use to communicate at the synapse

The axon is not entirely enclosed, however it is

covered in segments of myelin

electrical potential

created by the differences in charge between the outside and the inside of the neuron

A neuron conveys the strength of a stimulus by firing more often and

delivering its message to more neurons (difference between loud and quiet sounds)

The channels or gates open freeing the positive sodium ions to move into the cell through

dendrites to the cell body finally reaching the beginning of the axon

Voltage

determined by the electrical characteristics of particles called ions

The difference in the charges inside and outside of the neuron

determines its polarity

Two processes direct the flow of positive and negative ions into or out of the cell

diffusion and electrostatic pressure

Neuroscience extends far beyond the borders of medicine and into disciplines as

diverse as engineering, computer science, and psychology

When we hear a loud bang (2)

each individual neuron fires more often than it would for a quiet sound

Light sensitive cells in the back of your eyes relay signals, using

electricity and chemicals, to various brain regions that transform the black marks on a page into words to remember

A neuron is surrounded by and contains

electronically charged solutions

Inside the cell are negatively charged protein ions which do not

exist outside the cel

The damaged myelination caused by multiple sclerosis can lead to many symptoms including

fatigue, trouble with vision, and cognitive disabilities

Myelin sheath

fatty substance that insulates the axon and speeds the transmission of neural messages

Each action potential takes about 1 millisecond to complete, and a typical neuron can

fire several hundred times per second

Microglia

glial cell that can multiply and secrete substances to defend the brain from infection and inflammation

Schwann cell

glial cell that makes the myelin that envelops axons

Astrocytes

glial cell that restores the barrier between the brain and blood

Inside the neuron the concentration of potassium ions is

greater than that outside the membrane

The voltage inside the section of the axon rises rapidly

increasing from -55mV to +30mV after which the sodium gates immediately close

For an excitatory signal to occur, there has to be more excitatory then

inhibitory signals, and the difference between the two has to meet the threshold potential of -55 mV

The firing of a neuron is facilitated by the myelin sheath which

insulates and protects the tiny spikes in electricity happening inside the axon

The concentration of sodium ions inside the cell is much less than

its concentration on the outside of the cell

Glial cells hold neurons together and

maintain the structure of the nervous system

although the positive sodium ions are being pulled toward the inside of the cell, they cannot

move into the cell until the neuron is stimulated by a neighboring cell.

The axon is not covered with

myelin and the nodes of Ranvier

Because the protein ions cant get out, the inside of the neuron is

negatively charged when the neuron is not active

The signal to release neurotransmitters is the voltage change from the action potential which results in vesicles that contain

neurotransmitters attaching to the membrane on the terminal bud allowing neuro transmitters into the synaptic gap

The exchange of ion fluid can only happen at the

nodes of ranvier where the is no myelin

Some will send inhibitory Signal, instructing the neuron

not to fire

There is no such thing as a

partial action potential, or a strong or weak action potential

The membrane is impermeable to

positive sodium ions and negative protein ions

The firing of the first segment of the axon produces excess

positive sodium ions on the inside of the cell, and these positive sodium ions diffuse to the next segment with in the axon

Produces a spike in the value of the voltage within the cell as the charge inside the cell becomes more

positive than the outside of the cell

The majority of neurotransmitters drift across the synaptic gap and come into contact with

receptor sites of the receiving neurons dendrites

Action potentials strength

remains the same no matter what occurs

The solutions inside and outside this segment of the Axon

return to equilibrium

Not all neighboring neurons

send an excitatory signal

Axon

skinny tube-like structure of a neuron that extends from the cell body, and which sends messages to other neurons

Vesicles

small fluid filled sacks

Nerve cells are interlinked through

some 100 quadrillion (1015) connections

A neuron is encased in a membrane that is selectively permeable, allowing only

some of the ions to pass in and out of its channels

The brain is processing nonvisual sensory input such as

sound and smells, working with other nerve cells in your body to make sure your heart lungs, and glands and organs keep releasing hormones properly

Threshold potential

stimulus threshold

Astrocytes have been found to

support communication between neurons as well

The concentrations inside and outside of the cell of a positively charged ions and negatively charged ions determine

the activity in most neurons

Axon hillock

the beginning of the axon

Glial cells come to the rescue if

the brain is injured

Biological physiology

the branch of psychology that focuses on how the brain and other biological systems influence human behavior

An action potential moves down the axon eventually reaching

the branches of the terminal buds

Neurons

the building blocks of the nervous system that transmit electrical and chemical signals in the body

Chemical messages from surrounding neurons are sent to

the cell body

The sodium ions on the outside are attracted to

the cell wall

The positive sodium ions cannot leave the cell because

the channels in the dendrites closed immediately after they entered

Polarity

the degree to which it is positive or negative overall

resting potential

the electrical potential of a cell "at rest" the state of a cell when it is not activated

Negative protein ions move toward the membrane from

the inside

The brain may be regarded as

the last frontier of medicine

If enough sending neuron signal the receiving neuron to pass along

the message, their combined signal become excitatory and the neuron will fire

Diffusion

the natural tendency of the ions to spread out or disperse

When we hear a loud bang (1)

the number of sensory neurons being fired is greater than the number that would have been fired for a quiet sound

Positive sodium ions move toward the membrane from

the outside

Pumping the excess positive sodium ions back outside the cell and

the positive potassium ions back in

The change in voltage causes the sodium gates to open and

the positive sodium ions flood into the cell

Every time a segment of the axon buyers the positive sodium ions flood in from The outside of the cell, while

the prior segment returns to its resting potential, all along the length of the axon to its end

Cell body

the region of the neuron that includes a nucleus containing DNA, protein-producing mechanisms, and other structures that nourish the cells

Action potential

the spike in electrical energy that passes through the axon of a neuron the purpose of which is to convey information

Neuroscience

the study of the brain and nervous system

If enough positively charged ions enter the cell the potential of the neuron increases and reaches

the threshold, or trigger points, and the cell fires

Positive sodium ions and negative protein move closer to

their side of the membrane wall

Neurons are activated in response to sensations, thoughts, and other neurons, and this forms

then basis for all that we think

Protein ions are attracted to the excess positive charge outside and move toward the membrane, but

they are too big to go through

Unmyelinated axon

those damaged from multiple sclerosis or other disease, have slower transmission speeds because the signal must make its way down the entire length of the axon

Brain houses

thoughts emotions, personality and orchestrates behavior

The voltage of the second segment of the Axon to reach that

threshold potential, opening it's sodium gates and causing a Spike of voltage there

Synapse

tiny gap between a terminal bud and one axon and a neighboring dendrite of the next neuron, junction between neurons where communication occurs

Dendrites

tiny, branchlike fibers extending from the cell body that receive messages from other neurons and send information in the direction of the cell body

The action potential appears to jump from node to node, as opposed to

traversing the entire axon in one continuous movement speeding the transmission of the signal