Unit 2A_ Cognition - Perception (student copy) PDF

Summary

The document contains lecture notes on cognition and perception, including unit terminology, practice questions, and examples. Topics include factors influencing perception. Useful for psychology students.

Full Transcript

Factors Influencing Perception

Perception: Structuring & Understanding Reality
 Unit Terminology (Cognition, Perception)

❏ Perception ❏ Convergence
❏ Bottom-up processing ❏ Monocular depth cues
❏ Top-down processing ❏ Relative clarity
❏ Schema ❏ Relative size
❏ Perceptual set ❏ Texture gradient
❏ Gestalt psychology ❏ Linear perspective
❏ Closure ❏ Interposition
❏ Figure and ground ❏ Perceptual Constancies
❏ Proximity ❏ Apparent movement
❏ Similarity
❏ Attention
❏ Selective attention
❏ Cocktail party effect
❏ Inattentional blindness
❏ Change Blindness
❏ Binocular depth cues
❏ Retinal disparity
Using the source provided, respond to all Science Practice:
parts of the question in your warm-up:
In a recent psychology research study, scientists
investigated selective attention, a cognitive process
(A) Using evidence from the
where individuals focus their attention on specific
stimuli while ignoring others. Participants were
described study, identify any
presented with a series of auditory and visual
stimuli simultaneously, such as images and sounds,
potential confounding variables
and were instructed to selectively attend to one
type of stimulus while ignoring the other. The
that could influence
researchers measured participants' accuracy and
response times in detecting and responding to
participants' performance, and
target stimuli amidst the distractors. The study
aimed to understand the mechanisms underlying explain how they might impact
selective attention and how individuals filter out
irrelevant information in complex environments. the results.
 (A) Using evidence from the described study, identify any
Using the source provided, respond to all potential confounding variables that could influence participants'
parts of the question in your warm-up: performance, and explain how they might impact the results.

In a recent psychology research study, scientists There may be confounding variables present in the
investigated selective attention, a cognitive process study. For instance, individual differences in cognitive
where individuals focus their attention on specific abilities, such as attentional control or sensory
stimuli while ignoring others. Participants were processing, could significantly influence participants'
presented with a series of auditory and visual performance in the task. Moreover, factors like
stimuli simultaneously, such as images and sounds, fatigue, motivation, or distractions in the
and were instructed to selectively attend to one environment could also exert an impact on
type of stimulus while ignoring the other. The participants' attention and response times,
researchers measured participants' accuracy and potentially confounding the results. Thus, it is
imperative for researchers to thoroughly consider
response times in detecting and responding to
and control for these potential confounding variables
target stimuli amidst the distractors. The study
to ensure that any observed effects are genuinely
aimed to understand the mechanisms underlying
attributable to selective attention and not influenced
selective attention and how individuals filter out
by other extraneous factors.
irrelevant information in complex environments.
 ESDAY Explain the various factors, both from within our
WEDN
TH minds and from the environment, that affect
OCT. 16 how we perceive the world around us

❒ As we start a n
ew unit,
continue to period
→ Science Practice ❒ Module 2.1b Textbook ically
review your flash
Reading (Myers 4th) cards
→ Factors Influencing from Units 0 and 1
Perception Lecture ❒ Bonus: Crash Course #7
→ Textbook Reading
Perception the process by which our brain
organizes and interprets sensory
information, transforming it into meaningful
objects and events.

It's a crucial step in cognition, allowing
When you see a flower in the garden, your eyes capturing its light and
us to understand and interact with the color represent sensation—the raw data collection. Perception
occurs as your brain processes these signals to identify the
world around us. flower as a rose, appreciating its aesthetic appeal. This moment
where you recognize the rose and recall memories associated with it,
perhaps roses you've exchanged with loved ones, showcases
cognition. It's this cognitive process that enables you to connect
current perceptions with past experiences, thoughts, and emotions,
illustrating the seamless integration of perception and cognition in
understanding and interacting with our world.
Bottom-Up Processing "Details to Big
Picture" is a way our brain makes sense of
information by starting with the small details
and then building up to a complete
perception.

When you're walking in a new neighborhood and come across a
It's our cognitive system taking sensory building you've never seen before, you initially notice its distinct
features—red bricks, large windows, and an arched doorway. As
input and assembling it into something you take in these details, your brain starts to put them together,
we can understand, without prior and you realize it's a school, not just from its architecture but also
from the playground and a sign out front. This realization is
knowledge or expectations influencing bottom-up processing at work: starting from individual sensory
details and building up to a comprehensive understanding of what
the process. you're seeing, all without previous knowledge about this specific
location.
Bottom-Up Processing "Details to Big
Picture" is a way our brain makes sense of
information by starting with the small details
and then building up to a complete
perception.

When you're walking in a new neighborhood and come across a
BU: Build Up from the details. building you've never seen before, you initially notice its distinct
features—red bricks, large windows, and an arched doorway. As
you take in these details, your brain starts to put them together,
and you realize it's a school, not just from its architecture but also
from the playground and a sign out front. This realization is
bottom-up processing at work: starting from individual sensory
details and building up to a comprehensive understanding of what
you're seeing, all without previous knowledge about this specific
location.
Top-Down Processing "Big Picture to
Details" involves interpreting sensory
information based on the larger context,
prior knowledge, and expectations.

It's how our brain uses overarching
While walking in a new neighborhood, you see a structure in the
concepts and experiences to guide our distance. Before even noticing the details, you think, "That
looks like a school," based on its overall shape and location in
understanding of the details, shaping the neighborhood. As you get closer, your initial assumption helps
perception from the general to the you quickly identify the red bricks, large windows, and an arched
doorway as typical features of a school building, confirming your
specific. guess. This is an example of top-down processing, where your
previous knowledge and expectations about what a school looks
like guide your perception, allowing you to identify the building as a
school even before you've seen all the details up close.
Top-Down Processing "Big Picture to
Details" involves interpreting sensory
information based on the larger context,
prior knowledge, and expectations.

TD: Think Down from the big picture.
While walking in a new neighborhood, you see a structure in the
distance. Before even noticing the details, you think, "That
looks like a school," based on its overall shape and location in
the neighborhood. As you get closer, your initial assumption helps
you quickly identify the red bricks, large windows, and an arched
doorway as typical features of a school building, confirming your
guess. This is an example of top-down processing, where your
previous knowledge and expectations about what a school looks
like guide your perception, allowing you to identify the building as a
school even before you've seen all the details up close.
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Selective Attention the process of
focusing on a specific aspect of information
while ignoring others.

It allows us to prioritize sensory
information that is most relevant to
While studying in a busy coffee shop, you focus intently on your
our current goals or tasks, playing a key textbook and the notes you're writing. Despite the
background noise of conversations, the espresso machine, and
role in how we perceive and interact background music, you're able to filter out these distractions and
with our environment. concentrate solely on your study material. This ability to direct
your focus to the task at hand, ignoring irrelevant stimuli, is an
example of selective attention.You're selecting what to pay
attention to (your studying) and simultaneously ignoring other
sensory inputs (the bustling environment of the coffee shop).
Cocktail Party Effect our ability to focus
on a single conversation in a noisy
environment, like a crowded party, while
tuning out other stimuli.

Our perception can be directed to At a crowded party, you're engaged in a conversation with a friend
what we find most relevant or amidst the noise of music, laughter, and multiple other
conversations. Suddenly, from across the room, you hear someone
interesting. mention your name. Instantly, your attention shifts from your
current conversation to where your name was mentioned. This
ability to detect and focus on a specific stimulus (like your
Specific example of selective attention name) in a noisy environment, even when you're not consciously
listening for it, is known as the cocktail party effect. It
in an auditory context demonstrates how selective attention can be drawn to personally
significant information despite a multitude of distractions.
Inattentional Blindness an individual fails
to notice an unexpected stimulus in their
visual field when their attention is focused
on something else.

It highlights the limits of our perceptual and
cognitive processing, demonstrating that we During a basketball game, you're intensely tracking the movements
of the player with the ball, trying to predict the next play. Because
can miss significant information in our of your focused attention, you completely fail to notice a
environment when we are not directly team mascot doing backflips on the sideline, even though it
happens right in your field of vision. This phenomenon, where your
paying attention to it. concentrated observation on the game makes you oblivious to the
mascot's antics, is another instance of inattentional blindness.Your
cognitive focus on one element of the environment causes you to
overlook other significant, yet unrelated, actions happening
simultaneously.
Change Blindness the failure to notice
large changes in one's environment when
the change occurs simultaneously with a
visual disruption.

Illustrates the limits of our visual perception
and attention, showing that our awareness While you're scrolling through your phone at the dinner table,
someone replaces your glass of water with a glass of soda.
of changes in our surroundings is often less It takes you several minutes to notice the switch, even though the
acute than we might assume. glass is right in front of you. This oversight is an example of change
blindness, demonstrating how changes in our immediate
environment can go unnoticed when our attention is focused
elsewhere, like on your phone, making us blind to alterations we
might think would be obvious.
1. At a noisy party, Tom is able to focus on the
conversation with his friend and ignore other
conversations around him. This ability to focus on a
specific auditory input while filtering out others is
known as:
(A) Selective Attention
(B) Cocktail Party Effect
(C) Top-Down Processing
(D) Bottom-Up Processing
1. At a noisy party, Tom is able to focus on the
conversation with his friend and ignore other
conversations around him. This ability to focus on a
specific auditory input while filtering out others is
known as:
(A) Selective Attention
(B) Cocktail Party Effect
(C) Top-Down Processing
(D) Bottom-Up Processing
2. When assembling a complex piece of furniture,
Emily starts by recognizing individual components like
screws and wooden panels before understanding how
they fit together to form the final product. This
approach is best described as:
(A) Bottom-Up Processing
(B) Top-Down Processing
(C) Selective Attention
(D) Perception
2. When assembling a complex piece of furniture,
Emily starts by recognizing individual components like
screws and wooden panels before understanding how
they fit together to form the final product. This
approach is best described as:
(A) Bottom-Up Processing
(B) Top-Down Processing
(C) Selective Attention
(D) Perception
3. A detective arrives at a crime scene and
immediately begins forming theories about what
happened based on the pattern of evidence. This
method of using pre-existing knowledge to organize
individual features into a unified whole is called:
(A) Bottom-Up Processing
(B) Top-Down Processing
(C) Selective Attention
(D) Change Blindness
3. A detective arrives at a crime scene and
immediately begins forming theories about what
happened based on the pattern of evidence. This
method of using pre-existing knowledge to organize
individual features into a unified whole is called:
(A) Bottom-Up Processing
(B) Top-Down Processing
(C) Selective Attention
(D) Change Blindness
4. While reading an engaging novel at a café, Lisa
fails to notice her friend waving at her from the
entrance. This oversight can be attributed to:
(A) Selective Attention
(B) Cocktail Party Effect
(C) Inattentional Blindness
(D) Top-Down Processing
4. While reading an engaging novel at a café, Lisa
fails to notice her friend waving at her from the
entrance. This oversight can be attributed to:
(A) Selective Attention
(B) Cocktail Party Effect
(C) Inattentional Blindness
(D) Top-Down Processing
5. While working on a loud construction site, a
worker is able to pinpoint the location of a
malfunctioning machine despite numerous other
sounds. This ability is best described as:
(A) Selective Attention
(B) The Cocktail Party Effect
(C) Sound Localization
(D) Top-Down Processing
5. While working on a loud construction site, a
worker is able to pinpoint the location of a
malfunctioning machine despite numerous other
sounds. This ability is best described as:
(A) Selective Attention
(B) The Cocktail Party Effect
(C) Sound Localization
(D) Top-Down Processing
Using the source provided, respond to all Science Practice:
parts of the question in your warm-up:
In a recent psychology research study, scientists
investigated the effectiveness of structured (A) Identify the research
interviews in assessing job candidates'
problem-solving skills. Participants, who were job methods used in this
applicants, underwent structured interviews where
they were asked a series of predetermined
questions designed to assess their problem-solving
study.
abilities. The researchers compared the
performance of participants in the structured
interviews to their scores on standardized
problem-solving tests. The study aimed to
determine whether structured interviews provide
valid and reliable measures of problem-solving
skills compared to traditional assessment methods.
Using the source provided, respond to all (A) Identify the research methods used in
parts of the question in your warm-up: this study.
In a recent psychology research study, scientists The research method used in the study is
investigated the effectiveness of structured an experimental method. This is
interviews in assessing job candidates'
problem-solving skills. Participants, who were job evident from the manipulation of the
applicants, underwent structured interviews where independent variable (use of structured
they were asked a series of predetermined interviews to assess problem-solving
questions designed to assess their problem-solving skills) and the comparison of participants'
abilities. The researchers compared the
performance in the structured interviews
performance of participants in the structured
interviews to their scores on standardized to their scores on standardized
problem-solving tests. The study aimed to problem-solving tests.
determine whether structured interviews provide
valid and reliable measures of problem-solving
skills compared to traditional assessment methods.
 DAY Explain how the visual system processes sensory
THURS
TH information to create accurate or inaccurate
OCT. 17 interpretations of stimuli.

❒
→ Science Practice ❒ Module 2.2a, Module
2.2b Textbook Reading
→ Perception: Structuring
(Myers 4th)
and Understanding Reality
Lecture

→Depth Perception
Scavenger Hunt
Schemas mental frameworks that help us
organize and interpret information in the
world around us.

They influence perception by shaping
our expectations and guiding our
When you go to a restaurant and sit down at the table, you
attention. automatically reach for the menu, place your napkin on your lap,
and know to wait for a server to take your order. This set of
actions is guided by your restaurant schema, a mental structure
formed from past experiences that tells you how to behave in a
dining establishment.Your schema includes expectations about the
sequence of ordering, eating, and paying, enabling you to navigate
the situation comfortably even if it's a restaurant you've never
visited before.
Perceptual Set a tendency to perceive or
notice some aspects of the available sensory
data and ignore others.

It's influenced by our expectations,
experiences, and context, shaping our
perception by predisposing us to see what You're hiking through a forest at dusk, and out of the corner of your
eye, you spot what appears to be a snake on the path ahead.You jump
we expect to see. back, startled. Upon closer inspection, you realize it's just a twisted
branch. This initial mistaken perception is an example of perceptual
set, where your expectations (perhaps a fear of snakes or the
anticipation of encountering them in a forest setting) and
the context (dim light, forest surroundings) lead you to
perceive the branch as a snake. Your mindset, influenced by
previous knowledge and current context, predisposes you to see
what you expect rather than what is actually there.
Gestalt Psychology we perceive whole
objects or figures (gestalts) rather than just
a collection of parts.

It suggests that our brains are wired to see
structure, pattern, and organization in the
While looking at a painting, you instantly recognize the image of a
world, guiding how we interpret sensory face even though, on closer inspection, the face is made up of
information and experience perception. various fruits and vegetables cleverly arranged and painted. This
immediate perception of a face, rather than just a collection of
fruits and vegetables, illustrates a principle of Gestalt
psychology—namely, that our minds are inclined to organize
individual, unrelated elements into a coherent whole. This tendency
to perceive a unified shape or form (in this case, a face) from the
arrangement demonstrates the Gestalt principle that "the whole is
different from the sum of its parts.
Figure-Ground refers to the ability to
distinguish an object (figure) from its
surroundings (ground).

It involves the brain's organization of
sensory information, highlighting important
stimuli while filtering out irrelevant Searching for your keys on a cluttered desk. The
background details. keys represent the "figure," while the desk clutter
serves as the "ground." Your ability to visually
isolate the keys from the background clutter
demonstrates figure-ground perception, helping
you locate the keys more efficiently.
Binocular Depth Cues visual information
that requires both eyes to perceive depth
and distance

These cues help us perceive the world
in three dimensions.
Binocular Depth Cues rely on the fact that our two
eyes are spaced apart, which means each eye views
the world from a slightly different angle. This
difference in angles provides our brains with two
distinct images. The process of combining these two
images to perceive depth and distance is known as
stereopsis
Retinal Disparity when each eye sees a
slightly different picture because of their
separate positions on our face.

Our brain uses these differences to
figure out how far away things are, Imagine you're holding a finger up in front of your face and then
helping us see the world in 3D. alternately closing one eye and then the other. As you do this,
you'll notice that your finger appears to jump from side to side
against the background. This effect is due to retinal disparity: each
of your eyes is viewing your finger from a slightly different
angle because of the distance between them.Your brain
uses the differences between these two views to gauge depth,
allowing you to perceive how far away your finger is. This binocular
depth cue is crucial for depth perception, enabling you to see the
world in three dimensions.
Convergence when our eyes move inward
toward each other to focus on a close
object.

This eye movement helps us
understand how near something is,
Imagine you're sitting at your desk and you pick up a pencil to
aiding in our perception of depth. examine it closely. As you bring the pencil closer to your nose, you'll
notice your eyes naturally move inward, toward each other, to
maintain focus on the pencil. This inward turning of the eyes is known
as convergence. The closer the object gets to your face, the more
your eyes converge to keep the object in clear focus. This eye
movement is a binocular depth cue that helps your brain understand
the pencil is very close. The degree of convergence gives your
brain vital information about the distance of the pencil from
your eyes, allowing for accurate depth perception.
Monocular Depth Cues visual indicators
of distance and space that can be perceived
using just one eye.

Monocular Cues help us understand
how far away things are (depth).
Monocular depth cues are critical for perceiving
depth and distance using just one eye. These cues are
available from the visual information in a single eye,
making them essential not only for those relying on
one eye but also for adding depth perception in
situations where binocular cues are less
effective.
Relative Clarity a depth cue where
objects that are clearer and more detailed
are perceived as closer, while objects that
are hazier or less clear seem farther away.

This helps us gauge distance and depth
When you're looking at a landscape, the trees and objects close to
in what we see. you appear sharp and detailed, while mountains or buildings in the
distance seem hazy and less distinct. This difference in clarity
helps your brain judge the distance of various elements in
the scene. Closer objects are seen with more detail because
there are fewer particles in the air between you and them to
scatter light. This phenomenon, known as relative clarity, is a depth
cue that our visual system uses to perceive depth, allowing us to
differentiate between near and far objects in our environment.
Relative Size a visual cue where objects
closer to us appear larger, while objects
further away appear smaller.

Our brain uses this difference in size to
help determine the distance between
When you're standing at the end of a long hallway, the people
objects and how far away they are from walking near you appear larger than those walking at the
other end, even though you know all the people are roughly the
us. same size. This difference in size is used by your brain to interpret
the people farther away as being smaller due to their distance
from you. This visual information, known as relative size, helps your
brain calculate how far away people are based on the size of their
image on your retina, aiding in depth perception and the
understanding of space.
Texture Gradient the way we perceive
texture to become denser and finer as it
recedes into the distance.

This cue helps us understand depth, as
closer objects have clearer, more
When you're walking along a straight, gravel path, you'll notice the
distinguishable textures, while further gravel near your feet appears rough and detailed, with each stone
clearly distinguishable. As you look further down the path, the
objects appear smoother and less gravel begins to look smoother and more uniform, blending
detailed. together so you can't make out individual stones. This change in
texture, from coarse and distinct to fine and blended, as
distance increases, is an example of the texture gradient.
This visual cue helps you perceive the path's three-dimensional
quality and depth, indicating how the path extends and recedes
into the distance.
Linear Perspective a depth cue where
parallel lines appear to converge as they
recede into the distance.

This visual phenomenon helps our
brain perceive depth, allowing us to
Standing on a straight, empty road that stretches into the distance,
judge how far away objects are based you observe how the parallel edges of the road seem to gradually
come closer together until they meet at a point on the horizon,
on how the lines come together. even though you know the road remains the same width. This
phenomenon, where the parallel lines of the road appear to
converge as they get farther away, is an example of linear
perspective. It's a monocular depth cue that helps your brain
interpret the road's length and depth, enhancing your
perception of distance in a three-dimensional space.
Interposition occurs when one object
overlaps another, leading us to perceive the
overlapping object as closer.

This simple visual cue helps us
understand the arrangement of objects
Imagine you're looking at a fruit bowl on a table. An apple
in space, contributing to our depth partially covers an orange behind it, so you can only see part
perception. of the orange. This scenario, where the apple blocks your
view of the full orange, demonstrates interposition. It
visually indicates that the apple is closer to you than the
orange, helping your brain understand the spatial
arrangement of the fruits in the bowl based on which objects
obscure others from view.
Perceptual Constancies our brain's ability
to see objects as unchanging, even when the
image on our retina (like size, shape, or
color) changes.

This helps us recognize objects under When you're at the beach, watching a friend walk away from you
different conditions, maintaining a towards the water, you notice that their size appears to get smaller as
they get farther away. Despite this visual shrinkage, you don't
stable perception of the world. actually believe your friend is physically becoming smaller;
you understand they are the same size as when they were standing
next to you. This perception, where your brain corrects for distance
to maintain a consistent sense of the size of objects (or people), is an
example of size constancy. It demonstrates how perceptual
constancies allow us to perceive the world in a stable and consistent
way, regardless of changes in our visual field.
Shape Constancy our ability to perceive
an object as having the same shape, even
when our angle of view or the distance from
which we see the object changes.

This helps us recognize objects
As you walk around a parked car, observing it from different angles, the
regardless of the perspective from shape of the car appears to change. From the side, the car looks long and
narrow, but from the front or back, it appears shorter and wider.
which we view them. Despite these changes in the car's appearance due to your
changing viewpoint, you never doubt that the car's actual shape
remains constant; it doesn't physically alter as you move around it.
This ability to perceive the car as having a stable shape, regardless of
your perspective, is an example of shape constancy. It's a fundamental
aspect of perception that helps us recognize objects as being the same in
shape, even when our viewpoint of them changes.
Size Constancy our perception that an
object remains the same size, even when its
distance from us changes, causing the image
on our retina to grow or shrink.

This allows us to accurately judge the
When you're watching a plane fly overhead, it appears small
size of objects regardless of changes in enough to fit between your thumb and index finger when you hold
them up to the sky. However, you know the plane is actually much
their apparent size due to distance. larger than it appears from your vantage point on the ground. This
phenomenon, where your perception of the plane's size remains
constant despite the dramatic difference in its apparent size due to
distance, is an example of size constancy. Your understanding of
the plane's true size doesn't change, illustrating how size
constancy allows us to maintain a consistent perception of an
object's size, regardless of how far away it is.
Color Constancy ability to perceive colors
of objects as stable under varying lighting
conditions.

This means that even when the lighting
changes, we still see the object as
On a bright, sunny day, you take a photograph of a vibrant red flower in
having the same color, helping us your garden. Later in the evening, under the dim light of your living room,
you look at the photo on your phone. Despite the change in lighting
identify and differentiate objects in our conditions from when you viewed the flower outside to looking
at its photo indoors, the flower appears to be the same shade of
environment consistently red. This consistency in perceiving the color of the flower, regardless of
the lighting at the time of viewing, is an example of color constancy. It
demonstrates how our visual system compensates for changes in light to
maintain the perceived color of objects, ensuring that we see them as
having stable colors across different environments.
Apparent Movement the perception of
motion when there isn't any actual
movement.

It's how we see still images, like in
animations or movies, as moving. This
When you're watching a movie, what you're actually seeing is a
occurs when our brain fills in the gaps, series of still images flashed quickly on a screen. Despite
this, you perceive smooth, continuous motion. This illusion, known
creating the illusion of motion from a as apparent movement, tricks your brain into seeing movement
series of still images. where there is none, based solely on the rapid succession of static
frames. This principle underlies not just movies but also animation
and digital billboards, showcasing how our perception can be
manipulated to create the experience of motion from still images.
1. An artist paints a road that narrows in the
distance to give the impression of depth on a flat
canvas. This technique utilizes which depth cue?
(A) Linear Perspective
(B) Retinal Disparity
(C) Convergence
(D) Relative Clarity
1. An artist paints a road that narrows in the
distance to give the impression of depth on a flat
canvas. This technique utilizes which depth cue?
(A) Linear Perspective
(B) Retinal Disparity
(C) Convergence
(D) Relative Clarity
2. Two pencils are placed side by side, one
behind the other, with the front one partially
covering the view of the back one. This setup
demonstrates which depth cue?
(A) Linear Perspective
(B) Relative Size
(C) Texture Gradient
(D) Interposition
2. Two pencils are placed side by side, one
behind the other, with the front one partially
covering the view of the back one. This setup
demonstrates which depth cue?
(A) Linear Perspective
(B) Relative Size
(C) Texture Gradient
(D) Interposition
3. A child recognizes their small, classroom
globe as spherical just like the large earth,
despite its much smaller size. This recognition is
due to:
(A) Shape Constancy
(B) Size Constancy
(C) Color Constancy
(D) Perceptual Set
3. A child recognizes their small, classroom
globe as spherical just like the large earth,
despite its much smaller size. This recognition is
due to:
(A) Shape Constancy
(B) Size Constancy
(C) Color Constancy
(D) Perceptual Set
4. After rearranging his room, Tom notices that
his white walls look slightly blue in the evening
under his new LED lights, yet he still perceives
them as white. This perception is an example of:
(A) Shape Constancy
(B) Size Constancy
(C) Color Constancy
(D) Linear Perspective
4. After rearranging his room, Tom notices that
his white walls look slightly blue in the evening
under his new LED lights, yet he still perceives
them as white. This perception is an example of:
(A) Shape Constancy
(B) Size Constancy
(C) Color Constancy
(D) Linear Perspective
5. While watching a film, viewers perceive that the
high-speed car chase is happening in real-time and
moving smoothly across the screen. This perception
of fluid motion from a series of still images is known
as:
(A) Apparent Movement
(B) Gestalt Psychology
(C) Figure-Ground Organization
(D) Retinal Disparity
5. While watching a film, viewers perceive that the
high-speed car chase is happening in real-time and
moving smoothly across the screen. This perception
of fluid motion from a series of still images is known
as:
(A) Apparent Movement
(B) Gestalt Psychology
(C) Figure-Ground Organization
(D) Retinal Disparity
Depth Perception Scavenger Hunt This
hands-on activity is designed to take you
outside the classroom (either literally or
metaphorically) to discover the fascinating
ways our visual system interprets depth
cues.

Objective: Your mission is to find and
document real-life examples of depth cues in
your environment.