SEPTEMBER 19, 2022
SENSES
Meet the team
KYLIE
Nika
Sensation
are relatively meaningless
bites of information that result
when the brain processes
electrical signals that come
from the sense organs
eyes
sensory organ, part of the sensory nervous system,
that reacts to visible light and allows us to use
visual information for various purposes including
seeing things, keeping our balance, and
maintaining circadian rhythm.
PROCESS
1. The eyes gather and focus light
waves into a precise area at the
back of the eyes.
2. This area absorbs and transforms
light waves into impulses - a
process called transduction
LIGHT WAVES
EYES: sTRUCTURES
Cornea - the transparent part of the eye that covers
the iris and the pupil and allows light to enter the
inside.
Pupil - The round opening in the center of the iris
Iris - The colored tissue at the front of the eye
Lens - clear part of the eye behind the pupil and iris
that focuses rays of light on the retina to form clear
images
Retina - the light-sensitive layers of nerve tissue at
the back of the eye that receive images and sends
them as electric signals through the optic nerve to
the brain
EYES: sTRUCTURES
Visual pathways: eyes to brain
The nerve impulse flows through the optic nerve as it exits
from the back of the eye.
Optic nerves partially cross over and make a major stop
in the thalamus.
Primary Visual Cortex - transforms nerve impulses into
simple visual sensations, such as textures, lines and
colors.
Visual Association Areas.
Color vision
A ray of sunshine is called white light because it
contains all the light waves in the visible
spectrum.
A rainbow is a result from sunlight separating
and turning into waves of different lengths.
Our visual system transforms light waves of
various lengths into different colors.
Opponentprocess theory
TRICHROMATIC
THEORY
The trichromatic theory says that human
eyes only perceive three colors of light: red,
blue, and green. The wavelengths of these
three colors can be combined to create
every color on the visible light spectrum.
The opponent process theory states that
ooking at one color for a long period
causes those receptor cells to become
fatigued.
Color blindness
inability to distinguish the different shades of colors from each other.
Monochromats
total color blindness
Dichromats
trouble distinguishing red
from green.
EARS
Sound Waves - is the noise pattern caused by
the motion of energy traveling through a medium
(such as air, water, or any other liquid or solid
matter) as it propagates from the sound source.
Loudness - subjective experience of a
sound's intensity.
High Frequency - sounds waves are close
together, resulting in high sounds or pitch
Low Frequency - sound waves are apart,
resulting in low sounds or pitch
Pitch - subjective experience of a sound
being high or low.
EARS
Decibel - a unit of measurement
of the intensity of a sound or the
power level of an electrical
signal by comparing it to a
specified level on a logarithmic
scale.
Ears: sTRUCTURES
Outer Ear
Pinna
Auditory Canal
Eardrum
Middle Ear
Hammer
Anvil
Stirrup
Oval Window
Inner Ear
Cochlea
Semi-circular canals
AUDITORY BRAIN AREAS
Primary Auditory
Cortex
transforms nerve
impulses into basic
auditory sensations
Auditory Association
Area
combines meaningless
auditory sensations
into perceptions
AUDITORY CUES
Calculating
direction
By calculating the
slight difference in
time
Calculating
pitch
Frequency Theory
only applies to low-pitched sounds.
states that the rate at which nerve
impulses reach the brain determines
how low the pitch of a sound is.
Place Theory
Brain determines medium to higher
pitched sounds
Calculating
Loudness
calculated
from
the
frequency or rate of
how fast or how slow
nerve impulses arrive
from the auditory nerve.
Vestibular system
The endolymph in that semicircular canal flows into an
expansion of the canal called the ampulla.
Within the ampulla is a sensory organ called the crista
ampullaris that contains hair cells, the sensory receptors of
the vestibular system.
These receptors send vestibular information via the
vestibulocochlear nerve to the cerebellum and to nuclei in
the brainstem called the vestibular nuclei.
The vestibulocochlear nerve consists of the vestibular and
cochlear nerves, also known as cranial nerve eight (CN VIII)
Meniere's disease:
Disorder of the inner ear that can lead to dizzy spells (vertigo)
and hearing loss. In most cases, Meniere's disease affects only
one ear. Considered as a chronic condition.
Symptoms include episodes of vertigo, hearing loss, tinnitus,
and pressure in the affected ear.
Vertigo:
whose symptoms are dizziness and nausea, results from
malfunction of the semicircular canals of the vestibular
system. Vertigo usually is due to an issue with the inner ear.
Symptoms include dizziness, feeling sick, and loss of balance.
Motion sickness:
Consists of feelings of discomfort, dizziness, and nausea.
Nausea and weakness caused when information to the brain
from the semicircular canals conflicts with information from
eyes and position sensors in the back and lower limbs.
TASTE
Taste is called a chemical sense because the stimuli are
various chemicals. On the surface of the tongue are
receptors, called taste buds, for five basic tastes: sweet,
salty, sour, bitter, and umami.
The function of taste buds is to perform transduction,
which means transforming chemical reactions into
nerve impulses
The tongue is covered with projections
called papillae.
1. Filiform papillae- sharp with no
taste buds
2. Vallate - Leaf-shaped
3. Fungiform papilla - rounded with
taste buds
4. Circumvallate papillae - large
papillae with taste buds
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Taste Sensations
1
Sweet receptors Sugars, amino acids
2
Sour receptors - Acids
3
Bitter receptors Alkaloids
4
Salty receptors Metalions
5
Umami - Glutamate,
aspartate (MSG,meats)
Taste
Taste buds
Taste buds are formed by groupings
of taste receptor cells with hairlike extensions and these are
found on the sides of the papillae.
Chemicals dissolved in the saliva
actives the taste buds which then
produces nerve impulse.
Taste molecules bind to receptors
on this extension and cause
chemical changes.
Taste information is transmitted to
the medulla, thalamus, and
limbic system, and to the
gustatory cortex
Supertaster
A person who tastes certain
flavors and foods more strongly
than other people.
Supertasters sensitive to bitter
flavors in all foods and drinks.
People with this gene are
particularly sensitive to a
chemical called 6-npropylthiouracil (PROP).
Supertasters may have more,
stronger taste buds
Flavor
Taste (gustation) and smell
(olfaction) are chemical senses
that employ receptors on the
tongue and in the nose that
bind directly.
We can only figure out what
flavour our food is when we
combine sensation of smell and
taste together.
a e s t h e t i c
c a n d l e s
OLFACTION
is called a chemical sense because its stimuli are various
chemicals that are carried by the air. The upper part of
the nose has a small area that contains receptor cells for
olfaction.
People can lose their sense of smell if a virus or
inflammation destroys the olfactory receptors.
Desensitises once an odorant is bound and does not
respond to another odorant for some time
is called Adaptation.
Olfactory cells :
the receptors for smell and are located in two 1inch-square patches of tissue in the uppermost part
of the nasal passages.
Olfactory cells trigger nerve impulses that travel to
SMELL
the brain, which interprets the impulses as different
smells.
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SENSATIONS
1. Olfactory receptors with hair pick up the
chemical composition of the“odorant”.
2. They send these impulses from the olfactory
epithelium to the olfactory nerve processes.
3. These olfactory nerve processes project through
the foramina in the cribriform plate to the
olfactory bulb.
4. The axons of neurons of the olfactory bulb
project to the olfactory tract.
5. Lastly, impulses are transmitted via the olfactory
nerve.
FUNCTIONS OF OLFACTIONS
Provides numerous functions to humans,
influencing ingestive behavior, awareness
of environmental hazards and social
communication.
Important for detecting food and
providing good taste quality, for avoiding
potential dangerous situations in longand short distance, like fire and microbial
threats.
Touch
Touch
Includes pressure,
temperature, and pain.
Beneath the outer layer of skin
are a half-dozen miniature
sensors that are receptors for
the sense of touch.
third
Skin
The skin, the largest organ in the body, is
the sensory organ for touch.
The skin contains a variety of nerve
endings, combinations of which respond to
particular types of pressures and
temperatures.
When you touch different parts of the body,
you will find that some areas are more
ticklish, whereas other areas respond more
to pain, cold, or heat.
receptors in the skin
Somatosensory system
Pacinian corpuscle
Mechanoreceptors
This system is responsible
for all the sensations we
feel – cold, hot, smooth,
rough, pressure, tickle,
itch, pain, vibrations, and
more.
This is a special nerve
endings that serve as
mechanoreceptors sensitive
to vibration and pressure and
are crucial for
proprioception, and adapt
very quickly.
There are four known types
of mechanoreceptors whose
only function is to perceive
indentions and vibrations of
the skin: Merkel’s disks,
Meissner’s corpuscles,
Ruffini’s corpuscles, and
Pacinian corpuscles.
receptors in the skin
Thermoreceptors
nocireceptor
Proprioceptors
These receptors perceive
sensations related to the
temperature of objects the skin
feels. There are two basic
categories: hot & cold receptors.
The highest concentration of
thermoreceptors can be found in
the face and ears.
These receptors detect pain or
stimuli that can or does cause
damage to the skin and other
tissues of the body. They can
detect pain that is caused by
mechanical stimuli (cut or
scrape), thermal stimuli (burn),
or chemical stimuli (poison
from an insect sting).
They sense the position of the
different parts of the body in
relation to each other and the
surrounding environment.
Proprioceptors are found in
tendons, muscles, and joint
capsules. This location in the
body allows these special cells
to detect changes in muscle
length and muscle tension.
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You!