PSYC 101 Chapter 4
Microvilli
taste receptors that react with tastant molecules in food.
Figure versus ground perception
size, movement, edge assignment
C-fibers
slower C fibers transmit the longer-lasting, duller pain that persists after the initial injury.
cochlea
snail shaped, fluid filled tube. Have basilar membrane and hair cells/receptor cells/ cilia
The Human Eye (With graph)
1. Cornea 2. Lens 3. Iris 4. Pupil 5. Retina
Gestalt perceptual grouping rules
1. Proximity. 2. Closure. 3. Similarity. 4. Continuity. 5. Common fate.
Taste system contains taste receptors that detect 5 sensations
1. salt 2. sour 3. bitter 4. sweet 5. umami
Gate-control theory
A theory of pain perception based on the idea that signals arriving from pain receptors in the body can be stopped, or gated, by interneurons in the spinal cord via feedback from two directions.
Rubin's Illusion
Ambiguous Edges. A vase and facing silhouettes.
Taste is adaptive
Bitter & sour --> rancid, poisonous Sweet --> high in calories Salt --> important for all bodily functions Umami --> high in protein Supertaster
A-delta fibers
Fast-acting A-delta fibers transmit the initial sharp pain one might feel right away from a sudden injury.
Touch
Four types of mechanoreceptors located under the skin's surface enable us to sense: 1. Pressure. 2. Texture. 3. Pattern. 4. Vibration. Thermoreceptors sense cold and warmth.
How light works?
Light touches Cornea first. Then go through pupil. Then his the Lens. Hit the photoreceptors. Then Bipolar cell. Then Ganglion cell. Then create the optic nerve. All the visual information go to Thalamus. Then acci
Characteristics of light
Light waves vary in wavelength. 1. length (hue) 2. amplitude (brightness) 3. number of wavelengths (purity)
Perceiving Depth and Size
Monocular depth cues: aspects of a scene that yield information about depth when viewed with only one eye.
Visual Pathway from Eye through brain (Graph)
Objects in the right visual field stimulate the left half of each retina, and objects in the left visual field stimulate the right half of each retina. The optic nerves, one existing each eye, are formed by the axons of retinal ganglion cells emerging from the retina. Just before they enter the brain at the optic chiasm, about half the nerve fibers from each eye cross. The left half of each optic chiasm, representing the right visual field, runs through the brain's left hemisphere via the thalamus, and the right half, representing the left visual field, travels this route through the right hemisphere. So information from the right visual field ends up in the left hemisphere and information from the left visual field ends up in the right hemisphere.
Odorant molecules
Odorant molecules dissolve in muscous membrane of Olfactory Epithelium. Bind to olfactory receptor neurons.
The Human Ear
Outer Ear: 1. Pinna 2. Auditory canal. 3. Eardrum Middle Ear: Ossicles: 1. Hammer. 2. Anvil. 3. Stirrup. Inner Ear: cochlea and semicircular canals. Inner Ear sends auditory messages to thalamus then to brain.
Difference between sensation and perception
Sensation is same among people. Perception is much more individualized.
Where is the sound coming from?
Stereophonic hearing: loudness and timing differences allow us to localize sound.
Nasal Cavity
The nasal cavity (or nasal fossa) is a large air filled space above and behind the nose in the middle of the face. Each cavity is the continuation of one of the two nostrils.
Perception
The organization, identification, and interpretation of a sensation in order to form a mental representation.
Taste (Guesation)
The tongue
Pain
Tissue damage is detected by pain receptors: A-delta fibers and C-fibers
Perceiving Color
Trichromatic Theory: color perceptions from 3 types of comes: Red, Blue, Green.
Phototransduction in the Retina
Two types of photoreceptors in the retina: cones and rods
timbre
a listener's experience of sound quality or resonance (complexity, mix of frequencies)
blind spot
a location in the visual field that produces no sensation on the retina.
loudness
a sound's intensity (amplitude)
Fovea
an area of the retina where vision is the clearest and there are no rods.
hair cells/receptor cells/ cilia
auditory receptor neurons
Semicircular canals
balance
Sound waves
changes in air pressure unfolding over time
Cones
detect color, operate under normal daylight conditions, and allow us to focus on fine detail.
pitch
how high or low a sound is (frequency)
Peripheral vision
lower acuity because almost all cones are in Fovea. Move further away from Fovea, we have more rods and fewer cones, which explains why objects off to the side are not so clear.
Olfactory bulb
made up of axons from ORNs; send messages to brain.
Color deficiency/ color blindness
one or more cone types is missing.
Rods
only gray scale, become active only under low-light conditions for night vision.
sensory adaptation
sensitivity to prolonged stimulations tends to decline over time as an organism adapts to current conditions. (e.g. suddenly open the window feeling blind. Feel cold when put feet in the water). But stimulus does not change.
Sensation
simple stimulation of a sense organ. The basic registration of light, sound, pressure, odor, or taste as parts of the body interact with the physical world.
Binocular disparity
the difference in the retinal images of the two eyes that provides information about depth.
texture gradient
the fact that the size of elements on a patterned surface, as well as the distance between them, appears to grow smaller as the surface recedes from the observer.
Interposition
the fact that, when one object partly blocks another, you can infer that the blocking object is closer than the blocked object.
Retina
the interface between the world of light outside the body and the world of vision inside the central nervous system.
Linear perspective
the phenomenon that parallel lines seem to converge as they recede into the distance.
retinal disparity
the space between the eyes that allows binocular vision to create depth perception
tongue
the tongue is covered with thousands of small bumps called papillae. Within each papilla are hundreds of taste buds, which are the organ of taste transduction.
basilar membrane
undulates when vibrations from the ossicles reach the cochlear fluid
sensing light
visible light is the portion of the electromagnetic spectrum that we can see.
Five senses
vision, hearing, touch, taste, smell
Transduction
when sensors in the body covert physical signals from the environment (pressure, light reflections, smell molecule) into neural signals sent to the CNS.
