Use LEFT and RIGHT arrow keys to navigate between flashcards;
Use UP and DOWN arrow keys to flip the card;
H to show hint;
A reads text to speech;
157 Cards in this Set
- Front
- Back
- 3rd side (hint)
Gilbert Ryle
|
believes that their is no seperation between mind and the body; behaviorist, science of mind=science of behavior; mind and body not mutually exclusive
|
Gilbert Ryle
|
|
Descartes idea
|
The mind and body are 2 seperate entities; actions of the body are public, while actions of the mind are private, one can not know what another is thinking but can only analyze their actions based on your own behavior; 2 collateral histories 1 of mind one of body
-Gilbert Ryle BELIEVES IS FALSE |
Gilbert Ryle
|
|
Category Mistake
|
assuming that the university is in the same category as its subdivisions, instead of being composed of the subdivisions
|
Gilbert Ryle
|
|
Pavlov
|
behaviorist, studied conditioned reflexes through the salivary glands of dogs
|
Pavlov
|
|
unconditioned reflex
|
a reflex that requires no conditioning, ie. touching hot plate- pulling away
|
Pavlov
|
|
conditioned reflex
|
can be conditioned using an unconditioned reflex; root for understanding behavior, ex) light+food= salivation run many trials and light=salivation
|
Pavlov
|
|
secondary conditioned reflex
|
paired with conditioned reflex and never reinforced
ex) Light+tone(no food)=salivation then tone=salivation(though less) |
Pavlov
|
|
inhibitor
|
light and tone pairing continues w/o reinforcement after a time tone stops producing saliva then T+L=no salivation proving it to be inhibitory
|
Pavlov
|
|
inhibitor of the inhibitor
|
metronome paired with L+T at first no drops but always reinforced. M is slight inhibitor b/c L+M=6, but L+T+M=4 proving that m is inhibitor of T
|
Pavlov
|
|
equilibrium
|
after continued reinforcement w/ food M becomes a stimulator, so that L+M=10, meaning that we are back to the start neither more positive nor more negative
|
Pavlov
|
|
Norman Dixon
|
studied the conscious and preconscious aspects of thought
|
Dixon
|
|
2 systems of consciousness
|
the two systems of consciousness, one for transmission(fast unable to rest and think about transitory states), and the other for rep. in conscious experience(what we consider our thoughts)
|
Dixon
|
|
Leminiscal pathways
|
link sense organs to the cortex(fast acting)
|
Dixon
|
|
cortex
|
unconscious
|
Dixon
|
|
reticular activating system
|
slow acting fibers responsible for conscious info
|
Dixon
|
|
Studies in cats
|
when frontal cortex was disconected from brainstem they could still discriminate visual patterns w/o awareness
|
Dixon
|
|
Studies in monkeys
|
if leminiscal pathways were destroyed they could still be roused by sound and touch; but if lem. left intact and the reticualar system was destroyed they remained in a coma, but showed cortical potential to auditory and somatosensory perception
|
Dixon
|
|
how 2 systems interact
|
they can work independantly, one can have consciousness w/o sensory input; one can also have sensory input w/o consciousness
|
Dixon
|
|
Binocular rivalry
|
only one eye can achieve conciousness at one point.
|
Dixon
|
|
3 charachteristics of change in sensory mechanisms
|
-large capacit for monitering external world
-sensitivity to detecting change -acccess to memory |
Dixon
|
|
priorities of consciousness
|
anything that is: changing, novel, or of emotional importance. unimportant info drops out of consciousness to make room for new info
|
Dixon
|
|
Suppressed channels
|
continue to register and process info, change in attention depend on change in supressed channel, continue to be sampled
|
Dixon
|
|
Cortical Blindness(2)
|
patient follows target w/ eyes but cannot see it
|
Dixon
|
|
Blindsight
|
patient can guess shape color and loctation of an object though they cannot see it
|
Dixon
|
|
why a stimuli wouldnt achieve representation
|
intensity, duration, wavelength
|
Dixon
|
|
Bottom up
|
how info enters consciousness. from external stimuli ie. noise ratio, duration, frequency, complexity, and way entered
|
Dixon
|
|
Top down
|
how info enters consciousness. starts in mind, conscious intent, planned action
|
Dixon
|
|
Internal state
|
how info enters consciousness, state of brain, memory, emotive loading of previous info
|
Dixon
|
|
hypothesis
|
once a hypothesis has been formed all cotradicting info drops out of consciousness
|
Dixon
|
|
2 thinking processes
|
-rational/logical: well supported conclusion
-intuitive: based on hunches and feelings, little awareness |
Dixon
|
|
Selective attention
|
restricts cognative activity, helps confine consciousness to immediate task, but also denys access to related info. Prevents overload of limited channels
|
dixon
|
|
Preconscious
|
monitering, analyzing, large analytical capacity, consistend w/ what is needed to survive. Sorts whats relevant to represent in conscious
|
dixon
|
|
Conscious
|
small capacity, in immediate awareness
|
dixon
|
|
subliminal and phenomenal
|
how important info is, rating for getting into consciousness
|
dixon
|
|
3 principles of gathering and processing info for preconscious
|
rapid orientation to new info; peripheral and changing stimuli; habituation to old info
|
dixon
|
|
States of need w/ regard to consciousness
|
depress thresholds for need related stimuli
|
dixon
|
|
Montagna
|
studied the nervous system
|
Montagna
|
|
Nervous system
|
principle coordinater of the body. relay stystem for incoming and outgoing messages, adjuste individual to environment maintains integrity of body
|
Montagna
|
|
nerve cells(neurons)
|
structural and funtional unit of nervous system
|
Montagna
|
|
3 types of neurons
|
unipolar, bipolar, multipolar determined by how many proccesses attached to body
|
Montagna
|
|
dendrites
|
cytoplatic extensions of cell body, conduct nerve impulses towards cell body
|
Montagna
|
|
axon
|
only one that splits into many branches, carry impulses away from cell body, terminate in dif places. can be covered by myelin sheath
|
Montagna
|
|
Myelinated
|
the axon is covered by white myelin sheath(nodes of Ranvier= gaps in myelin sheath)
|
Montagna
|
|
receptors
|
sensory mechanisms that carry messages up and down nervous system.
|
Montagna
|
|
afferent v. efferent fibers
|
afferent= carry receptors from 1 neuron to another
efferent= carry receptors to designated organs |
Montagna
|
|
Ganglion(in PNS)
|
bundel of cell bodies(in PNS)
|
Montagna
|
|
Peripheral nervous system
|
contains all other nerves and ganglion
|
Montagna
|
|
Central Nervous system
|
spinal cord and brain
|
Montagna
|
|
Nerve(in pns)
|
bundel of nerve fibers(in PNS)
|
Montagna
|
|
fiber tract(in CNS)
|
bundel of nerve fibers(in CVS)
|
Montagna
|
|
Nucleus(In CNS)
|
bundel of cell bodies
|
Montagna
|
|
Proccess (neuron)down
|
info moves from dendrites of cell body-> axon->synapse(where neurotransmiters are released to convey message to dentrites of following neuron in chain
|
Montagna
|
|
Proccess (nerve impulses)up
|
nerve impulses travel along nerve fibers to sminal cord and up spinal nerves->brain and cranial nerves
|
Montagna
|
|
Spinal cord roots
|
recieves pain of sensory roots through afferent fibers on dorsal side, and a pair of motor roots emerge on ventral side at each intervertebral space
|
Montagna
|
|
anatomy of spinal cord
|
white matter: outside grey matter; myelinated fibers
grey matter: center of spinal cord; not myelinated fibers central canal occupies middle |
Montagna
|
|
Simple reflex
|
receptor organ->afferent sensory fibers->dorsal root ->dorsal column->interneurons->ventral column->motor neuron->ventral root->motor/ effector organ(muscle)
*does not involve central nervous system |
montagna
|
|
all or none law
|
nerve impulses must travel at the same rate or not at all, velocity doesnt change only frequency increased w/ intensity of stimuli
|
montagna
|
|
neural plate
|
contains all materials of nervous system for embryos; fuses to become neural tube
|
montagna-development
|
|
neural tube
|
covered by neural crest and enlarges at anterior to become the 3 primary brain vesicles; rest is slender and becomes spinal cord
|
montagna-development
|
|
anterior of neural tube
|
divides into the forebrain, midbrain and hindbrain
|
montagna-development
|
|
forebrain(prosencephalon)
|
divides into the telencephalon and diencephalon
|
montagna-development
|
|
telencephalon
|
divides into 2 vesicles that become the cerebral hemisphere
|
montagna-development
|
|
hindbrain(rhombencephalon)
|
gives rise to the metencephalon(which becomes the cerebellum and pons) and the myelencephalon(which becomes the medulla oblangata)
|
montagna-development
|
|
the forming of roots
|
the ventral and dorsal roots come together to form the spinal cord; in the brain the cranial nerves emerge as ventral or dorsal routes
|
montagna-development
|
|
meninges
|
cover brain and spinal cord; protect them, bring blood supply,and circulate cerebrospinal fluids
|
montagna-development
|
|
meninges(2)
|
split into vascular pia matter in contact w/ nerve tissue and fibrous dura mater on outside between there is an arachnoid membrane and it is the subarachnoid space that's filled with cerebrospinal fluid
|
montagna-development
|
|
neural canal
|
runs through the brain and spinal cord into dif. chambers or ventricles
|
montagna-development
|
|
Ventricles
|
-I&II are the largest and lateral ventricles and are in the cerebral hemisphere of forebrain
-ventricle III and IV is in the diencephalon are in the medulla oblongata where the most cerebrospinal fluid is secreted |
montagna-development
|
|
brains of lower v. higher vertebrates
|
lower vertebrates: plane and straight
higher vertebrates: have progressively folded brains so that it has more surface area. |
montagna-development
|
|
gyri and sulci
|
ridges and grooves in the brain
|
montagna-development
|
|
olfactory lobes
|
large in lower vertebrates but becomes smaller as the brain gets bigger. oldest part of brain
|
montagna-development
|
|
3 commisures of the cerebral hemisphere
|
the anterior and hippocampal connect olfactory portions to the 2 hemispheres, large corpus callosum connects newer parts of 2 hemispheres
|
montagna-development
|
|
hypothalamus
|
controls the autonomic nervous system and involuntary actions of the body
|
montagna-development
|
|
cerebellum
|
controls coordinated muscle action and equilibrium more highly developed in active animals, regulates duration, strength and speed of muscular movement
|
montagna-development
|
|
Medulla
|
contains centers of all vital incoluntary reflexes
|
montagna-development
|
|
crossover
|
impulses that enter spinal cord cross from one side to the other in the brain through commisural neurons in medulla oblongata. injury in one side of the brain results in damage to other side of the body
|
montagna-parts
|
|
thalamus
|
contains center through which entire autonomic system can be activated, and regulates centers of hypothalamus
|
montagna-parts
|
|
Cerebral cortex
|
recieves all sensations that require discrimination from thalamus
|
montagna-parts
|
|
Superior colliculi
|
contain centers for the coordination of sight and oculomotor activity
|
montagna-parts
|
|
inferior colliculi
|
centers of auditory reflex
|
montagna-parts
|
|
Spinal cord
|
has central canal running through center, spinal nerves enter on dorsal side and coresponding motor nerves emerve on vental side. Made up of grey matter surrounded by white matter.
seat of reflex centers controlling muscles of the trunk and limbs and is conductive pathway to and from the brain |
montagna-parts
|
|
Peripheral nervous system
|
nerves connect to the brain through spinal and cranial nerves; mechanism for recieving and relaying impulses for setting off responses. divides into the somatic and autonomic systems
|
montagna-parts
|
|
Somatic
|
consists of motor fibers ending in skeletal muscle
|
montagna-parts
|
|
autonomic
|
efferent system, fibers terminate in glandviscera, blood vessels, and smooth muscle. control circulation, respiration, digestion, metabolism, and body temp. divides into the sympathetic and parasympathetic
|
montagna-parts
|
|
sympathetic
|
responsible for triggering fight or flight(adreniline based)
|
montagna-parts
|
|
parasympathetic
|
conserves and restores energy instead of expending it(acetylcholine based)
|
montagna-parts
|
|
Medulla(of adrenal gland)
|
releases norepinephrine acts similar to effect of sypathetic
|
montagna-parts
|
|
Phineas Gage
|
construction worker, explosion shot an iron rod through his cheek and peirces the base of his skull crosses front brain and exits skull, he remains conscious and lives though he gets many infections and 1 abscess that is removed. he is physically healthy except for loss of vision in 1 eye. His personality was severely affected by the accident.
|
Damasio
|
|
Effects for phineas gage
|
cannot carry out plans; personality change loss of inhibitions, passions of a child w/ strength of man, used more foul language. developed fits and seizures and died young.
|
Damasio
|
|
Systems of personal and social dimension
|
regulate social conventions, loss of previously required knowledge, ethical rules can be lost to brain damage even when motor or intelligence functions are fine
|
Damasio
|
|
Planning- Gage
|
there's a part of the brain responsible for anticipation of future, planning in social environment, responsibility towards self to deliberately plan survival
|
Damasio
|
|
lessons-gage
|
-there are no single centers for vision, language, reason, or social behavior
-systems made up of several interconnected brain units -where the units are placed contributes dif. components to systems opp. and are not interchangable -social conventions, ethical behavior, planning for survival, and progress require knowledge of rules and strategies and integrity of spec. brain system |
Damasio
|
|
Penfield and Roberts
|
the recordings of consciousness and the function of the interpretive cortex
|
Penfield and Roberts
|
|
hippocampus(Penfield and Roberts)
|
essential in the formation and preservation of memoriees; also may be involved in memory recall. Records stream of consciousness and possibly the resactivation of this record
|
Penfield and Roberts
|
|
2 types of physical responses in the temporal cortex
|
expirimental and interpretive
|
Penfield and Roberts
|
|
Flash-Back
|
using electrodes one can cause a patient to relive a memory; enters the same stream of consciousness. aware of 2 consciousness's past and present. irrelevant data lost but all other info retained.
|
Penfield and Roberts
|
|
interpretive responses
|
there is no recall of the past only an interpretation of the present(deja vu)
or a patient when applied w/ electrodes can feel strange and absurd. relationship of patient to environment is altered feels distance from events or proximity. |
Penfield and Roberts
|
|
real memory v. stimulated memory
|
real memory is a generalization while stim. memory is more vivid, as if reliving them. pain taste or smell is not represented in stim memories, andmost are unimportant memories
|
Penfield and Roberts
|
|
experiences w/ electrode do not go backwards or cross and stop when the electrode is removed it can not be voluntarily reactivated must be achieved through other mechanisms
|
a
|
Penfield and Roberts
|
|
cerebral cortex is covered by nerve and ganglion cells that respond to electrical stim.
|
b
|
Penfield and Roberts
|
|
interp. responses correspond to the everyday judgments made by hte patients, analyzing the past w/ regard to the future
|
c
|
Penfield and Roberts
|
|
patients were fully aware of present and adressed doctor instead of ppl in memory
|
d
|
Penfield and Roberts
|
|
patients do not experience pain, taste or smell in stim., experiences do not go backwards in time, do not cross each other, and stop when electrode is withdrawn. no one can voluntarily recollect info
|
e
|
Penfield and Roberts
|
|
Korsakovs syndrome
|
a disease from alcholic degeneration of mammilary bodies. memory of recent events is disturbed almost exclusively, recent memories disapear while long ago facts are recalled, though intelligence remains intact. one can still form familiarity, and recognize ppl somewhat. possible reintegration thru art
|
oliver sacks
|
|
retrograde amnesia
|
inability to remember things in the past starts from current and moves backwards in time
|
oliver sacks
|
|
anterograde amnesia
|
unable to form new memories
|
oliver sacks
|
|
transient global amnesia
|
similar to Korsakovs but is only temporary. is a result of migraines head injuries or impaired blood supply
|
oliver sacks
|
|
pattern of behavior
|
x consitst of 2 parts and and b; x=AB, A consists of a and b and B consists of c, d and e; X=abcde, behavior can be described in any of 3 levels but no 1 level is better than any of the others
|
M,G,P
|
|
heirarchy of behavior
|
X
A a b B c d e |
M,G,P
|
|
Plan
|
any heirarchical proccess that can control order ov sequence of operations performed
|
M,G,P
|
|
Strategy and Tactics
|
Molar units of behavior=strategy
molecular units=tactics |
M,G,P
|
|
Execution
|
plan executed step by step, though execution does not neccessarily result in overt action
|
M,G,P
|
|
Image
|
private represetation of plan
|
M,G,P
|
|
relationship between image and plan
|
no strict dichotomy between the 2; knowledge must b incorporated into the plan, otherwise could not provide basis for guiding behavior. images can form part of plan
|
M,G,P
|
|
cell assembly theory
|
theory of thought and gen theory of behavior
|
Hebb
|
|
learning theorists
|
watsons stimulus-response and denial of mental processes
|
Hebb
|
|
Perceptionists
|
narrow view of perception w/ regards to learning
|
Hebb
|
|
Hebb
|
physiological theory; thought that thought must b known as well as the chemist knows the atom
|
Hebb
|
|
problem of perception
|
perception may not requre activity in any particular cells, but learning must depend on changes in particular cells
|
Hebb
|
|
Learning
|
Changed pattern of brain conduction, resulting from experience and changes response potential. Simple(S->R).
|
Hebb
|
|
Simple learing proccess
|
S->R new connection is formed
|
Hebb
|
|
Complex learning proccess
|
no resonse at time of learning, later a response shows learing did occur.
|
Hebb
|
|
What is a memory(hebb)
|
if changed pattern of conduction persists it's a memory, persistance is due to changed relation to particular pathways, and neurons, localized effect
|
Hebb
|
|
Cell assemmly theory(2)
|
when we proccess things it isnt always broken down to its base parts, it must be done 1st so we can learn to represent the whole directly
|
Hebb
|
|
when excitation reaches the cortex instead of having to be transmitted at once to a motor path or die out it may travel around the closed paths and continue to do so after the orig. signal is gone(hebb) makes delayed response and theoretical thought plausible(ready go)
|
a
|
Hebb
|
|
set go theory
|
the effect of the first must be held to till the 2nd is present. The 1st prepares the mind and makes the 2nd connection happen faster
|
Hebb
|
|
chimpanzees deprivation/ learning processes
|
reared in dark did not develop the right way could not percieve sight b/c they were not capable even after being brought into the light
|
Hebb
|
|
Deficit reactions
|
Emotion is a disruption of cell assembly. Even in the simple abscence of accustomed sensory input cell assemblies might b disrupted
|
Hebb
|
|
Hebbs test on Rats
|
hebb tested the difference between animals that had been raised in a poor environment v. animals that had been raised in a healthy environment. Rats raised in environments that lack sensory input were inferior to those raised in a hich stim. environment. This effect only occurs during the growth period(one group raised restricted then free as adults the other the opposite) 2nd group much better. Effects of early environment on intelligence irreversible. Visual even if unable to explore physically greatly enhances intelectual development
|
Hebb
|
|
Hebbs expiriments on Dogs
|
(either raised in restricted enviro or given freedom of a pet). Those raised in restricted environment happy since they knew nothing else, though adults in those environments would be miserable. More extreme reactions. Dogs raised in restricted environments were untrainable, abnormal in personality, and difficult to describe social behavior. They also ignored pain. Less likely to form conditioned responses. Motivation and emotional ties of pain are functions of infant experience
|
hebb
|
|
Hilgard and Hilgard
|
Hypnosis
|
Hilgard and Hilgard
|
|
hypnosis
|
can relieve pain from surgery or minor injury; normal phenomenon related to the power of suggestion; can be used as psychotherapy;
|
Hilgard and Hilgard
|
|
Hypnotic response
|
-people differ in their abilities to be hypnotized
-use score to tell "how deep" a patient is -ability to be hypnotized=hereditary |
Hilgard and Hilgard
|
|
extreme state theory
|
anyone can enter state ofhypnosis if circumstances are favorable
|
Hilgard and Hilgard
|
|
Hebbs expiriments on Dogs
|
(either raised in restricted enviro or given freedom of a pet). Those raised in restricted environment happy since they knew nothing else, though adults in those environments would be miserable. More extreme reactions. Dogs raised in restricted environments were untrainable, abnormal in personality, and difficult to describe social behavior. They also ignored pain. Less likely to form conditioned responses. Motivation and emotional ties of pain are functions of infant experience
|
hebb
|
|
Hilgard and Hilgard
|
Hypnosis
|
Hilgard and Hilgard
|
|
hypnosis
|
imagination important; can relieve pain from surgery or minor injury; normal phenomenon related to the power of suggestion; can be used as psychotherapy;
|
Hilgard and Hilgard
|
|
Hypnotic response
|
-people differ in their abilities to be hypnotized
-use score to tell "how deep" a patient is -ability to be hypnotized=hereditary |
Hilgard and Hilgard
|
|
extreme state theory
|
anyone can enter state ofhypnosis if circumstances are favorable
|
Hilgard and Hilgard
|
|
self hypnosis
|
a person can hypnotize themselves
|
Hilgard and Hilgard
|
|
Hypnotic experience
|
-sense of relaxation, mental and physical
-attention narrowed -daydreamlike -gradiations of acceptance -heightened suggestibility -when hypnotist is trusted the patient gives in more -hypnotist=guide |
Hilgard and Hilgard
|
|
Depth of hypnosis
|
at very little depth pain reduction takes effect, it also has the highest degree of responiveness. as one goes deeper little or no communication is achieved. At extreme depths people report mystical experience
|
Hilgard and Hilgard
|
|
Parapsychology
|
occurence unexplainable by physical principles; usually involving physical events or objects, but not completely physical, rely or sensory motor relations between subject and objects, organs have not been identified
|
Rhine and Pratt
|
|
Extrasensory perception
|
(esp) knowledge is aquired independant of the senses
|
Rhine and Pratt
|
|
Psychokinesis
|
(PK) producing a physical effect w/o physical intermediation
|
Rhine and Pratt
|
|
telepathy
|
(subdivision of esp) transfer of thought from one mind to another without mediation of senses
|
Rhine and Pratt
|
|
clairvoyance
|
(subdivision of esp) perception of objects or events as distinguished from mental thoughts of another person
|
Rhine and Pratt
|
|
precognition
|
(subdivision of esp) perception of future events that are not brought about by the prediction or by accident
|
Rhine and Pratt
|
|
direct perception real time and distance
|
real time events can be percieved from remote locations
no change in reception based on increased distance |
Targ, Puthoff and May
|
|
Results distant viewing
|
2/3 correct
more ppl would help the study training increased acuracy and reliability -can reception be enhanced by technilogical means?descriptive ojects are percieved while concepts are difficult accuracy and resolution depend on the interest of the object |
Targ, Puthoff and May
|
|
1st principle
|
when you find something interesting drop everything else and study it
|
Skinner 2
|
|
2nd principle
|
some ways of doing research are easier
|
Skinner 2
|
|
3rd principle
|
some people are lucky
|
Skinner 2
|
|
4th principle
|
apparatuses sometimes break down
|
Skinner 2
|
|
5th principle
|
serendipity- finding one thing while looking for something else
|
Skinner 2
|
|
artificial memories
|
after a person experiences something new info can be represented after the fact and become incorporated into the memory. ie leading the witness
use of words is important. ie smashing v. bumping. can create memory of object never seen or mentioned false info can either suplement or change a memory |
Loftus
|
|
verbal labels
|
changes the way ppl percieve an object in memory
|
Loftus
|