Cognition Review Exam 3 PDF

Summary

This document appears to be study notes or a chapter summary from a textbook, covering various aspects of memory, including autobiographical, transition points, and the role of emotions.

Full Transcript

Everyday Memory (Chapter 8)
===========================

**Autobiographical memory**

Autobiographical memory is the memory system that handles remembering
personal events and experiences. This type of memory is unique to each
individual and is often influenced by our personal beliefs, values, and
emotions. It\'s what allows us to remember our past experiences, like
our first day of school or a recent vacation.

**Transition points**

Transition points are moments in time when our memories shift from one
stage of life to another. These are significant periods of change that
often mark distinct phases in our development. Think of them as dividing
lines between different chapters of your life.

For example:

**Childhood to Adolescence:** This point could be marked by starting
high school, becoming more independent, or developing new social
relationships.

**Adolescence to Adulthood:** This transition may involve graduating
from college, starting a career, or getting married.

**Early Adulthood to Midlife:** This transition might be marked by
having children, experiencing significant career changes, or facing
health challenges.

**Reminiscence Bump**

The reminiscence bump is a phenomenon in memory where people tend to
have a better memory for events that happened during their adolescence
and young adulthood (ages 15-25). Although this period is not as distant
as childhood or old age, people recall more memories from this era
compared to other times in their lives.

**Self-image Theory**

This theory suggests that we remember events better from that period
because it\'s a time when we are forming our sense of self. We are
actively defining our identities, exploring who we are, and establishing
our place in the world.

Therefore, according to this theory, the events that we experience
during this formative period become particularly significant and
memorable because they contribute to our self-identity. They shape our
beliefs, values, and aspirations - making them crucial elements of our
personal narrative.

**Cognitive Theory**

Cognitive theory explains the reminiscence bump by suggesting that the
brain is better at storing and retrieving memories during adolescence
and young adulthood because it\'s developing its full capacity for
memory processing.

**Cultural Life Script Theory**

The Cultural Life Script Theory suggests that our memories are
influenced by the expected events and milestones that are typical of our
culture. It\'s like a script that outlines the \"normal\" stages of life
- from graduating high school to getting married, starting a career,
having children, etc.

**Role of emotion in memory**

The role of emotion in memory is significant. Our emotions can influence
how we encode, store, and retrieve information. Helps people remember
things more.

Here\'s how:

**Emotional events are more memorable:** We often remember emotional
events more vividly than neutral ones. This is because our brains
release hormones like adrenaline and cortisol during emotional arousal.
These hormones help to strengthen the neural connections involved in
memory formation.

**Flashbulb memories:** These are vivid, detailed memories of
significant and emotionally charged events. Think of 9/11 or the death
of a loved one; these memories feel like a snapshot in time. They are
not always accurate but are very impactful and often have strong
emotional ties.

**Emotional state during encoding:** Our emotional state at the time of
encoding or storing memory can affect how we remember the event. Think
of learning something when happy or learning when stressed. The emotion
associated with the event is encoded with that memory.

**Mood-congruent memory:** We tend to recall information that is
congruent with our current mood. This is because when we retrieve
information, our brains activate emotional networks associated with
memory.

Despite the power of emotions in shaping our memory, they are not
perfect. Emotional memories can also be distorted or inaccurate,
especially if the emotions were particularly strong

**Flashbulb memories- more confident, not more accurate**

Flashbulb memories are vivid, detailed memories of significant and
emotionally charged events. They feel as if they are \"frozen in time,\"
like a photograph, due to the intense emotions associated with them.
However, while people are incredibly confident in their flashbulb
memories, research has indicated that these memories are not always
accurate. They may contain inaccuracies or even be entirely fabricated.

**Constructive nature of memory**

The constructive nature of memory means that our memories are not simply
passive recordings of past events. Instead, they are actively
constructed and reconstructed each time we recall them. WE REMEMBER THE
GIST

**Source Monitoring**

Source monitoring is the process of determining the origin of our
memories. When we retrieve a memory, we must decide where it came from.
Did it come from a real event, or did we imagine it, dream it, or read
about it?

**Cryptomnesia**

Cryptomnesia is the unconscious plagiarism of someone else\'s work.
It\'s like when someone believes they have a new idea, but it's
something they have encountered before and subconsciously remembered.
This often happens with creative works like music, writing, or art.

**Schemas and scripts**

Schemas and scripts are mental frameworks that help us organize and
interpret information about the world around us.

**Schemas** are general knowledge structures that represent our
understanding of concepts, objects, events, and situations. For example,
we have a schema for what a \"restaurant\" is, including seating
arrangements, menus, servers, and typical actions that occur within a
restaurant.

**Scripts** are like schemas but focus on a specific sequence of events
that typically occur in a given situation. For example, we have a script
for going to a movie, which includes buying a ticket, getting popcorn,
finding a seat, and watching the film.

**Retroactive interference**

Retroactive interference is when new information interferes with the
recall of previously learned information.

EX: Studying for exams: If you study for two different subjects on the
same day, the information from the second subject can make it more
difficult to remember the information from the first subject.

**Misleading post-event information**

Misleading post-event information refers to the phenomenon where
information presented after an event can alter or distort a person\'s
memory of that event. This is closely related to the concept of \"false
memory.\"

**False memories**

False memories are memories of events that did not actually happen.
These memories can be very vivid and detailed, and the person may
believe them to be true, even though they are not.

**Knowledge Chapter 9**
=======================

**Definitional approach**

The definitional approach to categorization is a way of grouping things
together based on whether they meet a specific set of criteria or
definition.

For example, a \"bird\" is defined as an animal with feathers, wings, a
beak, and the ability to lay eggs. Any creature meeting these criteria
would be classified as a bird, regardless of other characteristics.

**Prototype approach**

The prototype approach to categorization is based on the idea that we
have an idealized \"best example\" of a category in our mind, called a
prototype. When we encounter a new item, we compare it to our mental
prototype, and if it\'s similar enough, we categorize it accordingly.

Think of a \"bird.\" You might have a mental prototype that includes
characteristics like a small size, feathers, wings, and the ability to
fly. Even though some birds don\'t perfectly match this prototype (like
penguins who don\'t fly), we still categorize them as birds because they
are similar enough to our mental image.

**Exemplar approach**

The exemplar approach is a method of categorization where we compare new
items to a collection of specific examples (exemplars) we have stored in
memory. It\'s like having a mental library of things we\'ve encountered
in the past that we can reference.

Imagine seeing a new type of dog. Instead of comparing it to a perfect
prototype, we might compare it to all the different dogs we\'ve seen
before. This comparison helps us decide whether it fits into the broader
category of "dog," even if it doesn't resemble a typical golden
retriever or German Shepherd.

**Why are categories important?**

Categories are important because they help us:

**Make sense of the world:** They provide a way to organize the vast
amount of information we encounter every day so we can understand and
make decisions. By grouping items together, we can process information
more efficiently.

**Make predictions:** Once we categorize something, we can use our
knowledge of that category to make predictions about its properties and
behaviors. For example, if we see a new type of fruit, we might assume
it\'s edible because fruits are typically edible.

**Communicate effectively:** Categories are essential for communication,
as they provide a shared understanding of the world. We can use
categories to express our thoughts and ideas clearly and efficiently.

**Hierarchy of categorization**

The hierarchy of categorization describes the way categories are
organized into a nested structure, with broader categories encompassing
narrower ones.

Here\'s an example:

**Super-ordinate Level:** The broadest level (most general level),
encompassing many sub-categories. Example: \"Furniture\"

**Basic Level:** The most used and intuitive level of categorization.
Example: \"Chair\"

**Subordinate Level**: The most specific level, with more detailed
categories. Example: \"Armchair\"

**Individual**

The individual level of categorization refers to the most specific
category possible -- it's the level where we\'re talking about unique,
individual items.

For example, instead of "chair", we\'d talk about \"that red leather
chair with the floral pattern.\"

**Role of experience in categorization**

Our experiences play a crucial role in shaping our understanding of
categories by:

**Forming Prototypes**: As we encounter new items, our experiences
influence our mental prototypes, which are the ideal examples of a
category we have in mind. The more we encounter a particular item, the
more it becomes cemented in our prototype for a category.

**Building Exemplar Libraries:** Our experiences help us build a mental
library of specific examples (exemplars) that we use to compare new
items. With more diverse experiences, we have a richer set of exemplars
to draw on.

**Fine-tuning Category Boundaries:** Our experiences help us refine the
boundaries of categories. As we learn more about the variations within a
category, we become better at recognizing nuances and making more
nuanced distinctions.

**Semantic Networks**

Semantic networks are a way of representing knowledge in a way that
shows the relationships between different concepts. Like a web, they
connect concepts in a network of related ideas. Imagine a network of
nodes (circles) representing words, and connecting lines (arcs) showing
the relationships between the nodes.

For example, \"dog\" might be connected to \"animal,\" \"mammal,\"
\"furry,\" \"bark,\" \"tail,\" \"leash,\" etc.

**Nodes**

In semantic networks, a node is a circle that represents a concept,
word, or idea. Think of it like a central hub of meaning.

**Cognitive economy**

Cognitive economy is the idea that our brains are designed to be
efficient and use as little energy as possible. This is why we use
categories and schemas to make sense of the world - they help us make
quick judgments and decisions without having to process every single
piece of information.

EX: Imagine you see a furry, four-legged animal with a tail wagging. You
quickly categorize this animal as a \"dog\" because you already have a
schema for dogs in your mind. You don\'t need to analyze every detail of
the animal to understand that it\'s a dog. This saves you cognitive
energy and allows you to react quickly to the situation.

**Lexical decision task**

A lexical decision task is a psychological test used to study how people
process language. Participants are presented with a string of letters
and must decide as quickly as possible whether the string is a real word
or a non-word.

For example, participants might see the words \"cat\" and \"table\" and
the non-words \"flib\" and \"glop\". The time it takes for participants
to decide whether each string is a real word, or a non-word can provide
insights into how people process language.

**Spreading activation**

Spreading activation is a theory that explains how we retrieve
information from our memory. It suggests that when we think of a
concept, it activates related concepts in our minds. For example, if you
think of the word \"apple\", it might activate related concepts like
\"fruit\", \"red\", \"sweet\", and \"tree\". These activated concepts
can then trigger other related concepts, leading to a chain reaction of
activation.

**[Language Chapter 11 (mostly not from the book)]**

**Classical vs behaviorist vs cognitive view of language**

**Classical view:** Language learning is about memorizing grammar rules
and associating words with their meanings.

**Behaviorist view:** Language is learned through reinforcement and
imitation. (Think of Skinner and Operant Conditioning)

**Cognitive view:** Language is a complex process of mental
representations and the interaction of these representations with our
cognitive processes. (Focus on the mind!)

**Generative aspect of language**

The generative aspect of language refers to our ability to create and
understand an infinite number of sentences using a finite set of rules
and words. We can combine words in new ways to express new ideas, even
if we\'ve never heard those exact combinations before.

**Dynamic aspect of language Perception and production of**

**language Levels of analysis:**

This section discusses how we perceive and produce language, and breaks
down the analysis into different levels. These levels of analysis help
us understand how language works from the smallest unit of sound
(phoneme) to the larger meaning of a conversation (discourse).

It\'s like looking at a car - you can focus on the engine, wheels, or
the overall design. Each level provides a different perspective on the
language system.

**Phoneme k**

A phoneme is the smallest unit of sound in a language that can
distinguish one word from another.

For example, the words \"cat\" and \"bat\" differ by only one phoneme:
/k/ vs /b/. The phoneme /k/ is made by placing the back of your tongue
against the roof of your mouth and releasing air.

**Morpheme**

A morpheme is the smallest meaningful unit in a language. It\'s like a
building block for words. **Free morphemes:** can stand alone as a word,
like \"cat\" or \"run\".

**Bound morphemes**: must be attached to another morpheme to have
meaning. Common examples are prefixes and suffixes, like \"-ing\" and
\"-ed\".

For example, the word \"running\" has two morphemes: \"run\" (free
morpheme) and \"-ing\" (bound morpheme).

**Words**

**Phrases**

**Sentences**

**Discourse**

Discourse is a broad term that refers to any instance of language use,
including conversations, speeches, written texts, and even non-verbal
communication like gestures and facial expressions. It\'s the way we use
language to communicate meaning in a particular context, often
considering the broader picture, such as the relationship between
speakers, the social setting, and the overall purpose of communication.
BIG PICTURE OF COMMUNICATION

**What makes human speech perception unique? Categorical perception vs
continuous perception**

Human speech perception is unique because it uses categorical perception
instead of continuous perception. This means we perceive sounds in
distinct categories rather than as a continuous spectrum of variation.

**Categorical perception** means that we perceive small differences
within a category (e.g., between different pronunciations of the same
phoneme) as the same sound.

**Continuous perception** means that we perceive all variations in a
sound as distinct differences, even slight ones.

**Why isn't language a stream of phonemes?**

Language isn\'t just a stream of phonemes because of coarticulation.
This means that sounds are influenced by the sounds that come before and
after them.

Imagine saying the phrase \"the cat.\" The \"t\" sound in \"cat\" is
slightly different depending on whether it\'s followed by a vowel or
consonant. Coarticulation makes speech more efficient, but it also makes
it more complex than just a simple sequence of phonemes.

**Coarticulation**

Coarticulation means that sounds in speech are not produced in
isolation. They are influenced by the sounds that come before and after
them. This makes speech more fluid and efficient, but it also makes it
more complex than just a simple string of phonemes.

**Dialects and phonemes**

Dialects and phonemes are related in that dialects often have different
sets of phonemes.

**Dialects** are variations of a language spoken by different groups of
people.

**Phonemes** are the basic units of sound in a language.

**McGurk Effect**

The McGurk Effect is a fascinating phenomenon that demonstrates how
visual information can influence our perception of speech sounds.

Here\'s how it works:

- You are presented with a video of a person speaking, but the audio
track is different from the mouth movements of the speaker.

- For example, the audio might say \"ba,\" but the speaker's mouth
movements might be for \"ga.\"

- The effect is that you perceive a different sound, often something
like \"da.\"

This shows how our brain combines both visual and auditory information
to create our perception of speech. It highlights the fact that speech
perception is not just about listening to sounds, but also about
interpreting visual cues.

**Phonemic restoration effect**

The phonemic restoration effect is kind of like a \"fill-in-the-blanks\"
for speech sounds. Here\'s how it works:

- You listen to a word or phrase that has a sound removed or replaced
with noise.

- Your brain, however, \"fills in\" the missing sound based on the
context of the surrounding sounds and the meaning of the phrase.

For example, if you hear \"the \*eel is on the orange,\" but the \"s\"
sound is replaced with noise, you're likely to still hear \"the eel is
on the orange.\" Your brain uses the context of the surrounding words to
reconstruct the missing \"s\" sound.

**Hierarchical models**

Hierarchical models are used to understand the structure of syntax and
grammar. They organize language elements in a hierarchy, with higher
levels depending on lower ones. Imagine a pyramid where the base is the
phoneme level, and the levels progress upwards to words, phrases,
sentences, and discourse. This model reflects how language is processed
and understood.

**Syntax and grammar**

Syntax refers to the rules governing how words combine into phrases and
sentences. It\'s the structure of language.

Grammar is broader, encompassing both syntax and morphology. It involves
the rules for constructing and understanding language.

Think of syntax as the blueprint for building a sentence, while grammar
is the entire set of instructions for using the language correctly.

**Word-chain grammar**

This is a specific grammatical theory. In word chain grammar, each word
in a sentence is determined by the preceding word. It\'s a simplistic
view of language that doesn\'t account for the complex relationships
between words and their structural dependencies. For example, it can\'t
explain why \"The cat sat on the mat\" is grammatical, but \"The mat sat
on the cat\" isn\'t. More sophisticated models, like Chomksy's ideas,
are needed to capture the nuances of natural language.

**Chomsky's colorless green ideas sleep furiously- never heard before**

This is a famous example used by Noam Chomsky to illustrate a key point
about language. It demonstrates that sentences can be grammatically
correct but still meaningless. The sentence follows the rules of English
syntax, yet it conveys no real meaning. It highlights the difference
between grammaticality and meaningfulness in language.

**Surface vs Deep structure**

**Surface Structure:** This is the actual arrangement of words in a
sentence as we hear or read it. It\'s the \"surface\" level of
representation within the sentence.

**Deep Structure:** This is the underlying meaning of a sentence,
independent of its surface form. It represents the core semantic
relationships between words.

For example, consider these sentences:

\"The dog chased the cat.\" \"

The cat was chased by the dog.\"

They have different surface structures, but they have the same deep
structure, indicating the same underlying semantic relationship: the dog
performed the action of chasing the cat.

**Language Acquisition Device**

This is a theoretical concept proposed by Noam Chomsky. It suggests that
humans are born with an innate ability to learn and understand language.
This innate capacity is referred to as the Language Acquisition Device
(LAD). It\'s a hypothetical mental module that allows babies to quickly
and effortlessly acquire the complex rules of their native language.

**Specialized language production**

This refers to the unique ways people produce language in specific
situations or for specific purposes. For example, a scientist might
speak differently during a research presentation compared to a casual
social interaction. It also includes specialized forms of language like
legal jargon or medical terminology.

**"Spiders spin spider webs because they have spider brains" Pinker**

This is a quote attributed to the linguist Steven Pinker. It\'s meant to
illustrate a common error in reasoning called \"circular reasoning.\"
The statement claims that spiders spin webs because they have \"spider
brains,\" implying that their brain structure is the sole cause of their
web-spinning behavior. However, this reasoning is circular because it
simply restates the obvious relationship without providing any real
explanation. It\'s like saying \"birds fly because they have bird
wings\" -- it\'s true, but it doesn\'t explain the underlying why of
their ability.

**Critical periods**

Critical periods refer to specific time windows in a person\'s
development when they are particularly sensitive to learning specific
skills or acquiring knowledge. For language development, the critical
period concept suggests that there\'s a window during early childhood
when the brain is most receptive to learning languages. After this
period, it becomes more difficult to acquire a native-like fluency in a
new language. Think of it like a gardener planting seed -- during the
optimal season, the seeds grow best.

**Stages of speech production:**

**Cooing**: (Early Stage) This is the stage characterized by vowel-like
sounds and gentle sounds. This happens within the first few months of
life.

**Babbling:** (Early Stage) This is when a baby starts making
consonant-vowel combinations, often repeating sounds like \"ba-ba-ba\"
or \"ma-ma-ma.\" Typically begins around 4-6 months of age.

**One-word utterances:** (First Words) The baby begins to produce single
words with meaning, like \"mama,\" \"dada,\" or \"milk.\" This usually
appears between 10-18 months.

**Two-word utterances:** (Early sentences) The child begins to combine
two words to form simple phrases like \"want milk,\" \"more juice,\" or
\"go park.\" This stage typically begins around 18-24 months.

**Basic adult sentence structure:** (Later Stages) This is when children
start to produce more complex sentences with correct grammatical
structure, following the rules of their language. They begin to use
plurals, verbs in the past tense, and more complex sentence structures.
This phase progresses with age and exposure to language.

**Phoneme specialization at babbling stage**

This refers to a key development in the babbling stage. During this
period, babies\' babbling starts to reflect the specific sounds
(phonemes) of their native language. They begin to distinguish and
produce the sounds that are relevant to their language, while dropping
or reducing sounds that are not used in their language. It\'s like the
baby\'s brain is starting to \"tune\" its sound system to match the
language spoken around them.

**Over generalization**

This refers to a common error children make when learning grammar. It
occurs when a child incorrectly applies a grammatical rule to situations
where it doesn\'t apply. For example, a child might say \"goed\" instead
of \"went\" because they are overgeneralizing the rule for forming past
tense verbs by adding \"-ed\" to the end. It\'s a natural part of the
language learning process as children figure out the complexities of
grammar.

**Perception before production**

This concept suggests that a child\'s ability to understand language
(perception) develops before their ability to produce language
(production). This means that a child can comprehend what is being said
to them, even if they can\'t yet speak the language fluently. This is
why they might understand simple instructions before they can speak
complete sentences.

**Wug study**

The Wug test is a classic experiment in linguistics. It\'s designed to
investigate children\'s understanding of grammatical rules, particularly
their knowledge of morphemes (the smallest meaningful units of
language). The test uses a made-up word and asks children to apply
grammatical rules to it, like forming the plural or past tense.

For example, they might show a child a picture of a creature called a
\"wug\" and then ask them to say what two of these creatures are called.
A child who understands the plural rules of English will say \"wugs.\"
The Wug test provides evidence of children\'s implicit knowledge of
language rules, even for made-up words.

**Bilingualism- Single vs dual system hypothesis Pidgins and creoles**

This section discusses different theories on how bilingual brains
process language.

**Single System Hypothesis:** This view proposes that bilinguals have a
single language system in their brains, where both languages are
integrated and processed together.

**Dual System Hypothesis:** This alternative view suggests that
bilinguals have two separate language systems in their brains, with
distinct representations for each language.

Pidgins and Creoles:

**Pidgins:** These are simplified languages that develop when speakers
of different languages need to communicate. They have limited vocabulary
and grammar, often borrowing features from the contributing languages.

**Creoles:** These are more complex languages that arise when a pidgin
language becomes the native language of a community. They develop their
own grammar and vocabulary, becoming more fully fledged languages.

**Children generating language:**

**ISN- Nicaraguan school children:** This refers to a unique study of
sign language development among deaf children in Nicaragua. They
developed their own sign language spontaneously, showing how language
can emerge when there is a need for communication, even in an absence of
pre-existing language models.

**Simon**: This refers to a specific study or case of a child learning
language. It might be a case where a child deviated from the typical
acquisition patterns or displayed exceptional language abilities.
**Simon was deaf and did his own version of American sign language since
parents did not teach nor know the language.**

**Language and intelligence as dissociable**

This phrase refers to the idea that language and intelligence are
distinct cognitive abilities. They are not necessarily dependent on each
other. This means a person can be intelligent without being particularly
good at language, and vice versa.

**Neuropsychology- verbal vs non-verbal IQ**

Neuropsychology is the study of the brain and its relation to behavior
and cognition.

Verbal IQ measures a person\'s ability to understand and use language.
It assesses skills like reading, vocabulary, and verbal reasoning.

Non-Verbal IQ focuses on cognitive abilities that are not directly
related to language. It might test spatial reasoning, problem-solving,
pattern recognition, or visual-motor coordination.

**Double dissociation in language and intelligence**

\"Double dissociation\" is used in neuropsychology to explore the
relationship between two cognitive functions.

In this case, it refers to situations where:

One group of people shows a deficit in language ability but normal
intelligence.

Another group shows a deficit in intelligence but normal language
ability.

**Hydrocephalus and William's Syndrome Selective**

**Hydrocephalus** is a condition where there\'s excess fluid in the
brain, which can cause brain damage and various developmental delays,
including language impairments.

**William\'s Syndrome** is a rare genetic disorder that affects many
parts of the body, including the brain. It\'s known to cause
characteristic facial features and cognitive challenges, particularly in
language and spatial reasoning.

**Language Impairment Aphasia- Wernicke's and Broca's only**

**Wernicke\'s Aphasia:** This type affects language comprehension.
Individuals with Wernicke\'s aphasia can speak fluently, but their
speech often lacks meaning or is nonsensical. They may have difficulty
understanding what others say.

**Broca\'s Aphasia:** This type affects language production. Individuals
with Broca\'s aphasia have difficulty speaking fluently and forming
grammatically correct sentences. However, they typically understand what
others say. **FRONTAL LOBE**

**Hemispheric specialization for language**

This refers to the idea that the brain\'s two hemispheres are
specialized for different functions. For language, the left hemisphere
of the brain is typically dominant. It\'s responsible for most language
functions, including speech production, comprehension, and grammar.

**Brain lesions left hemisphere**

This is a concise way of referring to damage to the left hemisphere of
the brain. Brain lesions can occur due to stroke, trauma, or other
neurological conditions. Such damage to the left hemisphere, especially
in areas critical for language, can cause various language impairments
like aphasia.