Condensation Experiment Sensory Adaptation. Sensation & Perception basic terminology.
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Transcript of Condensation Experiment Sensory Adaptation. Sensation & Perception basic terminology.
Sensation &
Perceptionbasic terminology
Scientific Names for the Six Senses (You Should Know These)
• Seeing: Visual• Hearing: Auditory• Tasting: Gustatory• Smelling: Olfactory• Sense of Touch: Tactile• Balance: Vestibular
Sensation Information coming into our brain from our sensory receivers
Perception The way the brain organizes and interprets the data received by our senses
ProsopagnosiaComplete sensation in the absence of perception
Example of Prosopagnosia: FACE BLINDNESS
Can you have sensation without perception?
Bottom-up Processing
Analysis of the stimulus begins with the sense receptors and works up to the level of
the brain and mind.
Letter “A” is really a black blotch broken down into features by the brain that we perceive as an
“A.”
Top-Down Processing•Information processing guided by higher-
level mental processes as we construct perceptions, drawing on our experience and expectations.
•Top Down Processing explains how our expectations and prior experiences guide our perceptions.
THE CHT
Bottom Up Vs. Top Down
• What do you see?
Bottom Up vs. Top Down
What do You See?
Top-Down Processing
• Aoccdrnig to rscheearch at Cmabrigde
Uinervtisy, it deosn't mttaer in waht oredr the
ltteers in a wrod are, the olny iprmoetnt tihng
is taht the frist and lsat ltteer be at the rghit
pclae. The rset can be a total mses and you
can sitll raed it wouthit a porbelm. Tihs is
bcuseae the huamn mnid deos not raed ervey
lteter by istlef, but the wrod as a wlohe.
Sensation vs. PerceptionWhat do you see?
Sensation vs. PerceptionWhat do you see?
Sensation vs. PerceptionWhat do you see?
How many faces do you see?
Making Sense of Complexity
“The Forest Has Eyes,” Bev Doolittle
Psychophysics
• Psychophysics: study of the relationship between physical characteristics of stimuli and our psychological experience of them
– Light - brightness– Sound - volume– Pressure - weight– Taste - sweetness
Thresholds
Absolute ThresholdMinimum stimulation needed to detect a particular stimulus 50% of the time.
Subliminal MessagesMessages presented below absolute thresholds – not consciously perceived
“Subliminal Messages”• Some have argued that humans still “pick
up” these messages that influence our “unconscious.” Do these messages have suggestive powers?
• Skeptics argue “Subliminal Messages” are heavily influenced by top down processes.
• Example: Feeling “hungry” during subliminal advertisements. Mr. Subliminal
“Subliminal Messages” • What does the research say?
Subliminal Message In Beer Ad?
Subliminal Messages In Money
Subliminal Message In “The Lion King?”
Difference ThresholdAmount of change needed to notice that a change has occurred.
Weber’s Law: The greater or stronger the stimulus, the greater the change required to notice that a change has occurred. The two stimuli must differ by a constant minimum percentage (rather than a constant amount), to be perceived as different.
JND = just noticeable difference
Sensation: Thresholds
• Signal Detection Theory: predicts how and when we detect the presence of a faint stimulus (signal) amid background stimulation (noise)
• Assumes that there is no single absolute threshold
• What might a person’s detection of a stimulus depend on?
Sensory Adaptation
Diminished sensitivity as a consequence of constant stimulation.
Put a band aid on your arm and after awhileyou don’t sense it.
Now you see, now you don’t
The EYE
vision
David HUBEL & Torsten WIESEL
•Discovered that most cells in the visual cortex only respond to particular features. For example, maybe a cell responds only to lines at this \ angle.
key name
Wiesel was awarded the 1981 Nobel prize in Medicine and Physiology. His Nobel Lecture was entitled 'The postnatal development of the visual cortex and influence of environment.’ Wiesel recognized that covering one eye of a young animal could cause that eye to lose its connection to the visual cortex.
Feature Detection
Nerve cells in the visual cortex respond to specific features, such as edges, angles,
and movement.
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The Eye
Biology of Vision: Know the Steps
1. Light enters the eye through the cornea: (transparent protector) and passes through the pupil: (small opening/hole).
2. The size of the opening (pupil) is regulated by the iris: the colored portion of your eye that is a muscular tissue which widens or constricts the pupil causing either more or less light to get in.
Biology of Vision: Know the Steps
3. Behind the pupil, the lens, a transparent structure, changes its curvature in a process called accomodation, and focuses the light rays into an image on the light-sensitive back surface called the retina: where image is focused.
Biology of Vision: Know the Steps4. Image coming through activates
photoreceptors in the retina called rods and cones (process information for darkness and color).
5. As rods and cones set off chemical reactions they form a synapse with bipolar cells which transducts light energy into neural impulses.
6. The action potential travels along the ganglion cells which send information up the optic nerve (bundle of neurons that take information from retina to the brain)
Biology of Vision: Know the Steps
7. The Optic Nerve carries neural information to be processed by the Thalamus (sensory switchboard).
8. Thalamus sends information to the visual cortex which resides in the occipital lobe.
9. The brain then constructs what you are seeing and turns image right side up.
Parts of Retina1. Fovea: central focal point of the retina, where
cones cluster.
2. Cones: photoreceptor located near center of retina (fovea)– fine detail and color vision– daylight or well-lit conditions
3. Rods: photoreceptor located near peripheral retina – detect black, white and gray– twilight or low light
4. Bipolar Cells: create visual neural impulses
Most Common Errors In Vision
• Acuity: the sharpness of vision
• Nearsightedness:– nearby objects seen more clearly– lens focuses image of distant objects in front
of retina
• Farsightedness:– faraway objects seen more clearly– lens focuses near objects behind retina
COLOR
vision
Long wavelengths
Physical Characteristics of Light
Wavelength =hue/color
Different wavelengths of light result in different colors.
400 nm 700 nmShort wavelengths
Violet Indigo Blue Green Yellow Orange Red
intensity/brightness
Amplitude =
COLOR mixingSubtractive Color Mixingmixing pigments (like paint). Result is:
Additive Color Mixingmixing different colored lights. Result is:
Retina
Retina: The light-sensitive inner surface of the
eye, containing receptor rods and cones in addition to layers of other neurons (bipolar,
ganglion cells) that process
visual information.
Photoreceptors
E.R. Lewis, Y.Y. Zeevi, F.S Werblin, 1969
Let’s do a little experiment to “map”
our rods & cones
Thomas YOUNG & Hermann HELMOLTZ
• Trichromatic color theory (RGB) - some cones are especially sensitive to red, some to green, some to blue
key name
Typical cases of Color Blindness support the
Trichromatic theory.
Opponent Process Theory There are three opponent
channels:
red vs. greenblue vs. yellow
& black vs.whitewhite
While the trichromatic theory defines the way the retina of the eye allows the visual system to detect color with three types of cones, the opponent process theory accounts for mechanisms that receive and process information from cones.
Opponent Process TheoryGaze at the middle of the flag.
When it disappears, stare at the dot and reportwhether or not you see Britain's flag.
What just happened is called a NEGATIVE AFTERIMAGE
