702416
B6: Brain and
Mind
- Reflexes
- living organisms can
detect and respond to
a stimulus such as the
environment where
there is a change in
light/temperature etc.
- Receptors are stimulated
by the stimulus and
produce a rapid involuntary
response. this means that it
is automatic - organism
responds without thinking -
a simple reflex
- the simplest animals rely on reflex actions for
much of their behaviour. all movement and
reactions are simple reflex responses. the
reflex actions ensure that the animal will
respond in a way that is most likely to result in
its survival
- a simpple reflex response to
chemicals can lead to an organism
finding food quickly. a change in
light level could indicate the
presence of a predator and so the
organism will move away quickly.
- the simplest animals rely on reflex actions for
much of their behaviour. all movement and
reactions are simple reflex responses. the
reflex actions ensure that the animal will
respond in a way that is most likely to result in
its survival
- Receptors are stimulated
by the stimulus and
produce a rapid involuntary
response. this means that it
is automatic - organism
responds without thinking -
a simple reflex
- Simple Reflexes
- newborn refelxes
- Stepping Reflex
- when held under its arms in
an upright position with feet
firmly on the floor, a baby will
make walikng movements
with its legs
- when held under its arms in
an upright position with feet
firmly on the floor, a baby will
make walikng movements
with its legs
- Grasping Reflex
- a baby tightly grasps
the finger put into its
hand
- a baby tightly grasps
the finger put into its
hand
- Sucking Reflex
- a baby sucks on a
finger or the nipple
when put into ots mouth
- a baby sucks on a
finger or the nipple
when put into ots mouth
- Stratle Reflex
- a baby shoots out its
arms and legs when
stratled - by a sudden
loud noise
- a baby shoots out its
arms and legs when
stratled - by a sudden
loud noise
- Rooting Reflex
- a baby turns its head and
opens its mouth ready to
feed when its cheek is
stroked
- a baby turns its head and
opens its mouth ready to
feed when its cheek is
stroked
- Adult Reflexes - for
potentially dangerous
events
- knee jerk
- when the knee is
struck below the
kneecap, the leg
will kick out.
- when the knee is
struck below the
kneecap, the leg
will kick out.
- pupil reflex
- bright light causes
muscles in the eye to
contract so the retina is
not damaged
- light landing in the retina sends impulses along
the optic nerve. impulses from the brain are are
passed along a nerve to the iris, causing it to
increase or decrease the size of the pupil
- bright light = pupil size
decreases so less light
is let in
- radial muscles relax and
circular muscles contract
- bright light = pupil size
decreases so less light
is let in
- bright light causes
muscles in the eye to
contract so the retina is
not damaged
- dropping hot
object reflex
- the response is to
throw it away so you
don't damage yor hand
- the response is to
throw it away so you
don't damage yor hand
- knee jerk
- Stepping Reflex
- newborns cannot think for themselves.
they exhibit a range of simple reflexes
for a short time after birth. the absence
of these or their failure to disappear
could indicate that the nervous system
hasn't developed properly
- newborn refelxes
- sending Signals
- electrical impulses
through long wire like
cells called neurons
(nerve cells) - quick and
short lived
- sensory neurons carry nervous impulses
(electrical signals) from receptors to the
central nervous system (impulse travels
towards cell body) and motor neurons
carry impulses from the central nervous
system to effectors (impulse travels away
from cell body
- sensory neurons carry nervous impulses
(electrical signals) from receptors to the
central nervous system (impulse travels
towards cell body) and motor neurons
carry impulses from the central nervous
system to effectors (impulse travels away
from cell body
- the other is via hormones which
are chemical signals.an example
is insulin which control blood
sugar levels and oestrigen - the
female sex hormone which are
secreted into the blood. chemical
signals ae slower than electrical
impulses and they move to
target organs but their effects
last longer
- the nervous and hormonal
communication systems are
present in large complex
organisms - a result of
evolution of multicellular
organisms
- electrical impulses
through long wire like
cells called neurons
(nerve cells) - quick and
short lived
- living organisms can
detect and respond to
a stimulus such as the
environment where
there is a change in
light/temperature etc.
- Detecting Changes
- nervous coordination
requires the presence of
one or more receptors
that are different to detect
stimuli
- light - detected by
receptors in the eyes
- sound - detected by
receptors in the ears
- changes of position -
detected by receptors for
balance in the inner ear
- taste - detected by
receptors on the tongue
- smell - detected by
receptors in the
nose
- pressure - detected
by receptors for
pressure in the skin
- temperature -
detected by
receptors
temperature in
skin
- light - detected by
receptors in the eyes
- Coordinating the Response
- the receptors are
connected to a
processing centre
by sensory neurons
- with simple reflexes, the processing
centre is the spinal cord; the brain isnt
involved. the processing centre
coordinates a response by sending
back a message electrically via motor
neurons to the effector, which carries
out the response. THIS IS THE
SPINAL REFLEX ARC
- with simple reflexes, the processing
centre is the spinal cord; the brain isnt
involved. the processing centre
coordinates a response by sending
back a message electrically via motor
neurons to the effector, which carries
out the response. THIS IS THE
SPINAL REFLEX ARC
- A SPINAL REFLEX ARC
- 1) A receptor is stimulated by the stimulus (drawing pin)
- 2) this causes the impu;ses to pass along a sensory neuron into the spinal cord
- 3) the sensory neuron synapses with a relay neuron, by-passing the brain
- 4) the relay neuron synapses with a motor neuron sending impulses down it
- 5) then it goes down it tp the muscles (effectors) causing them to contrcat in response to the sharp drawing pin
- 5) then it goes down it tp the muscles (effectors) causing them to contrcat in response to the sharp drawing pin
- 4) the relay neuron synapses with a motor neuron sending impulses down it
- 3) the sensory neuron synapses with a relay neuron, by-passing the brain
- Receptors and Effectors -
form part of very complex
organs
- Muscle cells in
Muscle Tissue
- the specialised cells that make
up muscles tissues are
effectors. Impulses travel along
motor neurons and terminate at
the muscle cells
- these
impulses
cause the
muscle cells
to contract
- these
impulses
cause the
muscle cells
to contract
- the specialised cells that make
up muscles tissues are
effectors. Impulses travel along
motor neurons and terminate at
the muscle cells
- Light Receptors in
the Retina of the
Eye
- the eye is a complex
sense organ. the lens
focuses light onto
receptor cells in the
retina - sensitive to
light.
- the receptor cells are
then stimulated and
send electrical
impulses along the
sensory neurons to the
brain
- the receptor cells are
then stimulated and
send electrical
impulses along the
sensory neurons to the
brain
- the eye is a complex
sense organ. the lens
focuses light onto
receptor cells in the
retina - sensitive to
light.
- Hormone
Secreting Cells
in a Gland
- the hormone
secreting cells in
glands are
effectors
- they are activated by an impulse
which travels along a motor neuron
from the central nervous system and
terminates at the gland
- the impulse triggers the release of te hormone into the
bloodstream which transports it to the sites where it is required
- the impulse triggers the release of te hormone into the
bloodstream which transports it to the sites where it is required
- they are activated by an impulse
which travels along a motor neuron
from the central nervous system and
terminates at the gland
- the hormone
secreting cells in
glands are
effectors
- Muscle cells in
Muscle Tissue
- 2) this causes the impu;ses to pass along a sensory neuron into the spinal cord
- the arrangement of neurons into a fixed
pathway in a spinal reflex arc means that
the responses are automatic and
therefore very rapid because no
processing is required
- if the signal had to travel to the brain
and be processed before action was
taken, then, by the time the response
arrived, it may be too late
- if the signal had to travel to the brain
and be processed before action was
taken, then, by the time the response
arrived, it may be too late
- 1) A receptor is stimulated by the stimulus (drawing pin)
- the receptors are
connected to a
processing centre
by sensory neurons
- nervous coordination
requires the presence of
one or more receptors
that are different to detect
stimuli
- Neurons
- neurons are especially adapted cells
that can carry electrical signals (nerve
impulses). they are elongated to make
connections from one part of the body to
another
- they have branched
endings which allow
a singe neuron to act
on many other
neurons or effectors
- muscle fibres e.g.
- they have branched
endings which allow
a singe neuron to act
on many other
neurons or effectors
- muscle fibres e.g.
- in motor neurons, the cytoplasm forms
a long fibre surrounded by a cell
membrane called an AXON
- Some axons are also
surrounded by a fatty sheath
which insulates the neuron
from neighbouring cells (like
plastic coating on a copper
electrical wire). it increases
the speed at which the nerve
impulse is transmitted
- Some axons are also
surrounded by a fatty sheath
which insulates the neuron
from neighbouring cells (like
plastic coating on a copper
electrical wire). it increases
the speed at which the nerve
impulse is transmitted
- neurons are especially adapted cells
that can carry electrical signals (nerve
impulses). they are elongated to make
connections from one part of the body to
another
- central nervous system
- information from neurons is
coordinated overall by the central
nervous system. in
animals/vertebrates, the CNS is the
brian and spinal cord. the pathway for
receiving information and then acting
upion it is shown here:
- Nervous System
- Receptor
- Sensory Neurons
- Relay Neurons
- SPINAL CORD
- BRAIN
- SPINAL CORD
- motor neurons
- Effector
- Effector
- motor neurons
- SPINAL CORD
- BRAIN
- SPINAL CORD
- Relay Neurons
- Sensory Neurons
- Receptor
- the CNS is connected to the body
via sensory and motor neurons
which make up the PERIPHERAL
NERVOUS SYSTEM (PNS)
- The PNS is the second majour
division of the nervous system, its
sensory and motor neurons
transmit messages all over the
body - to limbs and organs. they
also transmit messages to and
from the central nervous system
- The PNS is the second majour
division of the nervous system, its
sensory and motor neurons
transmit messages all over the
body - to limbs and organs. they
also transmit messages to and
from the central nervous system
- Nervous System
- DRUGS
- Ecstasy/beta
blockers/prozac cause
changes to the speed at
which nerve impulses
travel to the brain -
speeding up/slowing
down and sometimes
false signals are sent
- drugs can prevent
impulses from travelling
acros synapses or they
can cause the nervous
system to become
overloaded with too
many impulses
- Ecstasy/beta
blockers/prozac cause
changes to the speed at
which nerve impulses
travel to the brain -
speeding up/slowing
down and sometimes
false signals are sent
- information from neurons is
coordinated overall by the central
nervous system. in
animals/vertebrates, the CNS is the
brian and spinal cord. the pathway for
receiving information and then acting
upion it is shown here:
- synapses
- GAPS BETWEEN
ADJACENT CELLS
- they allow the brain to
form inerconnected
neural circuits
- adult brain contains
100-500 trillion
synapses.
- children have 1000 trillion but
they decrease as they age,
stabilising by adulthood
- children have 1000 trillion but
they decrease as they age,
stabilising by adulthood
- adult brain contains
100-500 trillion
synapses.
- when an impulse reaches
the end of a sensory neuron,
it triggers the release of
chemicals called transmitter
substances into the synapse
- they diffuse across
the synapse and
then bind with
specific receptor
molecules on the
membrane of a
relay neuron
- the receptor molecules will only bind
with specific chemicals to initiate a
nerve impulse in the relay neuron so
the signal can continue on its way.
meanwhile the transmiter substance
is reabsobed back into the sensory
neuron to be used again.
- the receptor molecules will only bind
with specific chemicals to initiate a
nerve impulse in the relay neuron so
the signal can continue on its way.
meanwhile the transmiter substance
is reabsobed back into the sensory
neuron to be used again.
- they diffuse across
the synapse and
then bind with
specific receptor
molecules on the
membrane of a
relay neuron
- sequence is as follows
- 1) Electrical signal
(nerve impulse) moves
through sensory neuron
- 2) transmitter
substances are
released into the
synapse
- 3) transmitter substances
bind with receptors on the
motor neuron
- 4) Electrical signal
(nerve impulse) is now
sent through motor
neuron
- 4) Electrical signal
(nerve impulse) is now
sent through motor
neuron
- 3) transmitter substances
bind with receptors on the
motor neuron
- 2) transmitter
substances are
released into the
synapse
- 1) Electrical signal
(nerve impulse) moves
through sensory neuron
- GAPS BETWEEN
ADJACENT CELLS
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