AS - Level psychology (chapter 4 - approaches in psychology ) Mapa Mental sobre biopsychology: neurons and synaptic transmission, criado por Daisy U em 23-04-2016.
carry nerve impulses from
neighbouring neurons
towards the cell
axon
carries impulse away from the cell body
down the length of the neuron
covered in a fatty layer (myelin sheath)
protects it and speeds up transmission
nodes of ranvier
myelin sheath split up to make
impulses quicker
these are called nodes of ranvier
terminal buttons
end of the axon
speed up transmission forcing it to jump
across the gaps along the axon
electric transmission - the firing of a neuron
when neuron in resting state the
inside is negatively charged
compared to the outside
when it is activated by a stimulus the
inside becomes positively charged
causing an action potential
creates electrical impulses that travel down the axon
synaptic transmission
chemical transmission - synapses
neurons communicate within groups called neural networks
each neuron separated by a gap called a synapse
signals within neurons transmitted electrically
outside chemically (along the synapse)
when the electrical impulses reach the end of the neuron (presynaptic
terminal) it triggers the release of neurotransmitters fro sacs called
synaptic vesicles
neurotransmitter
chemicals that diffuse across the
synapse to the next neuron
when a neurotransmitter crosses the synapse it reaches the post synaptic gap
the dendrite of the next neuron
the chemical message changes to electrical and carries on
several types of neurotransmitters are
in the brain, spinal cord and some
glands
has its own structure that fits perfectly into the post synaptic receptor site
all have special functions
excitation and inhibition
neurotransmitters have either an excitatory or inhibitory effect
serotonin causes inhibition resulting in he neuron
becoming negatively charged so less likely to fire
adrenaline causes excitation makes it positively charged so more likely to fire