- •Preface
- •Approach and Pedagogy
- •Chapter 1
- •Introducing Psychology
- •1.1 Psychology as a Science
- •The Problem of Intuition
- •Research Focus: Unconscious Preferences for the Letters of Our Own Name
- •Why Psychologists Rely on Empirical Methods
- •Levels of Explanation in Psychology
- •The Challenges of Studying Psychology
- •1.2 The Evolution of Psychology: History, Approaches, and Questions
- •Early Psychologists
- •Structuralism: Introspection and the Awareness of Subjective Experience
- •Functionalism and Evolutionary Psychology
- •Psychodynamic Psychology
- •Behaviorism and the Question of Free Will
- •Research Focus: Do We Have Free Will?
- •The Cognitive Approach and Cognitive Neuroscience
- •The War of the Ghosts
- •Social-Cultural Psychology
- •The Many Disciplines of Psychology
- •Psychology in Everyday Life: How to Effectively Learn and Remember
- •1.3 Chapter Summary
- •Chapter 2
- •Psychological Science
- •Psychological Journals
- •2.1 Psychologists Use the Scientific Method to Guide Their Research
- •The Scientific Method
- •Laws and Theories as Organizing Principles
- •The Research Hypothesis
- •Conducting Ethical Research
- •Characteristics of an Ethical Research Project Using Human Participants
- •Ensuring That Research Is Ethical
- •Research With Animals
- •APA Guidelines on Humane Care and Use of Animals in Research
- •Descriptive Research: Assessing the Current State of Affairs
- •Correlational Research: Seeking Relationships Among Variables
- •Experimental Research: Understanding the Causes of Behavior
- •Research Focus: Video Games and Aggression
- •2.3 You Can Be an Informed Consumer of Psychological Research
- •Threats to the Validity of Research
- •Psychology in Everyday Life: Critically Evaluating the Validity of Websites
- •2.4 Chapter Summary
- •Chapter 3
- •Brains, Bodies, and Behavior
- •Did a Neurological Disorder Cause a Musician to Compose Boléro and an Artist to Paint It 66 Years Later?
- •3.1 The Neuron Is the Building Block of the Nervous System
- •Neurons Communicate Using Electricity and Chemicals
- •Video Clip: The Electrochemical Action of the Neuron
- •Neurotransmitters: The Body’s Chemical Messengers
- •3.2 Our Brains Control Our Thoughts, Feelings, and Behavior
- •The Old Brain: Wired for Survival
- •The Cerebral Cortex Creates Consciousness and Thinking
- •Functions of the Cortex
- •The Brain Is Flexible: Neuroplasticity
- •Research Focus: Identifying the Unique Functions of the Left and Right Hemispheres Using Split-Brain Patients
- •Psychology in Everyday Life: Why Are Some People Left-Handed?
- •3.3 Psychologists Study the Brain Using Many Different Methods
- •Lesions Provide a Picture of What Is Missing
- •Recording Electrical Activity in the Brain
- •Peeking Inside the Brain: Neuroimaging
- •Research Focus: Cyberostracism
- •3.4 Putting It All Together: The Nervous System and the Endocrine System
- •Electrical Control of Behavior: The Nervous System
- •The Body’s Chemicals Help Control Behavior: The Endocrine System
- •3.5 Chapter Summary
- •Chapter 4
- •Sensing and Perceiving
- •Misperception by Those Trained to Accurately Perceive a Threat
- •4.1 We Experience Our World Through Sensation
- •Sensory Thresholds: What Can We Experience?
- •Link
- •Measuring Sensation
- •Research Focus: Influence without Awareness
- •4.2 Seeing
- •The Sensing Eye and the Perceiving Visual Cortex
- •Perceiving Color
- •Perceiving Form
- •Perceiving Depth
- •Perceiving Motion
- •Beta Effect and Phi Phenomenon
- •4.3 Hearing
- •Hearing Loss
- •4.4 Tasting, Smelling, and Touching
- •Tasting
- •Smelling
- •Touching
- •Experiencing Pain
- •4.5 Accuracy and Inaccuracy in Perception
- •How the Perceptual System Interprets the Environment
- •Video Clip: The McGurk Effect
- •Video Clip: Selective Attention
- •Illusions
- •The Important Role of Expectations in Perception
- •Psychology in Everyday Life: How Understanding Sensation and Perception Can Save Lives
- •4.6 Chapter Summary
- •Chapter 5
- •States of Consciousness
- •An Unconscious Killing
- •5.1 Sleeping and Dreaming Revitalize Us for Action
- •Research Focus: Circadian Rhythms Influence the Use of Stereotypes in Social Judgments
- •Sleep Stages: Moving Through the Night
- •Sleep Disorders: Problems in Sleeping
- •The Heavy Costs of Not Sleeping
- •Dreams and Dreaming
- •5.2 Altering Consciousness With Psychoactive Drugs
- •Speeding Up the Brain With Stimulants: Caffeine, Nicotine, Cocaine, and Amphetamines
- •Slowing Down the Brain With Depressants: Alcohol, Barbiturates and Benzodiazepines, and Toxic Inhalants
- •Opioids: Opium, Morphine, Heroin, and Codeine
- •Hallucinogens: Cannabis, Mescaline, and LSD
- •Why We Use Psychoactive Drugs
- •Research Focus: Risk Tolerance Predicts Cigarette Use
- •5.3 Altering Consciousness Without Drugs
- •Changing Behavior Through Suggestion: The Power of Hypnosis
- •Reducing Sensation to Alter Consciousness: Sensory Deprivation
- •Meditation
- •Video Clip: Try Meditation
- •Psychology in Everyday Life: The Need to Escape Everyday Consciousness
- •5.4 Chapter Summary
- •Chapter 6
- •Growing and Developing
- •The Repository for Germinal Choice
- •6.1 Conception and Prenatal Development
- •The Zygote
- •The Embryo
- •The Fetus
- •How the Environment Can Affect the Vulnerable Fetus
- •6.2 Infancy and Childhood: Exploring and Learning
- •The Newborn Arrives With Many Behaviors Intact
- •Research Focus: Using the Habituation Technique to Study What Infants Know
- •Cognitive Development During Childhood
- •Video Clip: Object Permanence
- •Social Development During Childhood
- •Knowing the Self: The Development of the Self-Concept
- •Video Clip: The Harlows’ Monkeys
- •Video Clip: The Strange Situation
- •Research Focus: Using a Longitudinal Research Design to Assess the Stability of Attachment
- •6.3 Adolescence: Developing Independence and Identity
- •Physical Changes in Adolescence
- •Cognitive Development in Adolescence
- •Social Development in Adolescence
- •Developing Moral Reasoning: Kohlberg’s Theory
- •Video Clip: People Being Interviewed About Kohlberg’s Stages
- •6.4 Early and Middle Adulthood: Building Effective Lives
- •Psychology in Everyday Life: What Makes a Good Parent?
- •Physical and Cognitive Changes in Early and Middle Adulthood
- •Menopause
- •Social Changes in Early and Middle Adulthood
- •6.5 Late Adulthood: Aging, Retiring, and Bereavement
- •Cognitive Changes During Aging
- •Dementia and Alzheimer’s Disease
- •Social Changes During Aging: Retiring Effectively
- •Death, Dying, and Bereavement
- •6.6 Chapter Summary
- •Chapter 7
- •Learning
- •My Story of Posttraumatic Stress Disorder
- •7.1 Learning by Association: Classical Conditioning
- •Pavlov Demonstrates Conditioning in Dogs
- •The Persistence and Extinction of Conditioning
- •The Role of Nature in Classical Conditioning
- •How Reinforcement and Punishment Influence Behavior: The Research of Thorndike and Skinner
- •Video Clip: Thorndike’s Puzzle Box
- •Creating Complex Behaviors Through Operant Conditioning
- •7.3 Learning by Insight and Observation
- •Observational Learning: Learning by Watching
- •Video Clip: Bandura Discussing Clips From His Modeling Studies
- •Research Focus: The Effects of Violent Video Games on Aggression
- •7.4 Using the Principles of Learning to Understand Everyday Behavior
- •Using Classical Conditioning in Advertising
- •Video Clip: Television Ads
- •Psychology in Everyday Life: Operant Conditioning in the Classroom
- •Reinforcement in Social Dilemmas
- •7.5 Chapter Summary
- •Chapter 8
- •Remembering and Judging
- •She Was Certain, but She Was Wrong
- •Differences between Brains and Computers
- •Video Clip: Kim Peek
- •8.1 Memories as Types and Stages
- •Explicit Memory
- •Implicit Memory
- •Research Focus: Priming Outside Awareness Influences Behavior
- •Stages of Memory: Sensory, Short-Term, and Long-Term Memory
- •Sensory Memory
- •Short-Term Memory
- •8.2 How We Remember: Cues to Improving Memory
- •Encoding and Storage: How Our Perceptions Become Memories
- •Research Focus: Elaboration and Memory
- •Using the Contributions of Hermann Ebbinghaus to Improve Your Memory
- •Retrieval
- •Retrieval Demonstration
- •States and Capital Cities
- •The Structure of LTM: Categories, Prototypes, and Schemas
- •The Biology of Memory
- •8.3 Accuracy and Inaccuracy in Memory and Cognition
- •Source Monitoring: Did It Really Happen?
- •Schematic Processing: Distortions Based on Expectations
- •Misinformation Effects: How Information That Comes Later Can Distort Memory
- •Overconfidence
- •Heuristic Processing: Availability and Representativeness
- •Salience and Cognitive Accessibility
- •Counterfactual Thinking
- •Psychology in Everyday Life: Cognitive Biases in the Real World
- •8.4 Chapter Summary
- •Chapter 9
- •Intelligence and Language
- •How We Talk (or Do Not Talk) about Intelligence
- •9.1 Defining and Measuring Intelligence
- •General (g) Versus Specific (s) Intelligences
- •Measuring Intelligence: Standardization and the Intelligence Quotient
- •The Biology of Intelligence
- •Is Intelligence Nature or Nurture?
- •Psychology in Everyday Life: Emotional Intelligence
- •9.2 The Social, Cultural, and Political Aspects of Intelligence
- •Extremes of Intelligence: Retardation and Giftedness
- •Extremely Low Intelligence
- •Extremely High Intelligence
- •Sex Differences in Intelligence
- •Racial Differences in Intelligence
- •Research Focus: Stereotype Threat
- •9.3 Communicating With Others: The Development and Use of Language
- •The Components of Language
- •Examples in Which Syntax Is Correct but the Interpretation Can Be Ambiguous
- •The Biology and Development of Language
- •Research Focus: When Can We Best Learn Language? Testing the Critical Period Hypothesis
- •Learning Language
- •How Children Learn Language: Theories of Language Acquisition
- •Bilingualism and Cognitive Development
- •Can Animals Learn Language?
- •Video Clip: Language Recognition in Bonobos
- •Language and Perception
- •9.4 Chapter Summary
- •Chapter 10
- •Emotions and Motivations
- •Captain Sullenberger Conquers His Emotions
- •10.1 The Experience of Emotion
- •Video Clip: The Basic Emotions
- •The Cannon-Bard and James-Lange Theories of Emotion
- •Research Focus: Misattributing Arousal
- •Communicating Emotion
- •10.2 Stress: The Unseen Killer
- •The Negative Effects of Stress
- •Stressors in Our Everyday Lives
- •Responses to Stress
- •Managing Stress
- •Emotion Regulation
- •Research Focus: Emotion Regulation Takes Effort
- •10.3 Positive Emotions: The Power of Happiness
- •Finding Happiness Through Our Connections With Others
- •What Makes Us Happy?
- •10.4 Two Fundamental Human Motivations: Eating and Mating
- •Eating: Healthy Choices Make Healthy Lives
- •Obesity
- •Sex: The Most Important Human Behavior
- •The Experience of Sex
- •The Many Varieties of Sexual Behavior
- •Psychology in Everyday Life: Regulating Emotions to Improve Our Health
- •10.5 Chapter Summary
- •Chapter 11
- •Personality
- •Identical Twins Reunited after 35 Years
- •11.1 Personality and Behavior: Approaches and Measurement
- •Personality as Traits
- •Example of a Trait Measure
- •Situational Influences on Personality
- •The MMPI and Projective Tests
- •Psychology in Everyday Life: Leaders and Leadership
- •11.2 The Origins of Personality
- •Psychodynamic Theories of Personality: The Role of the Unconscious
- •Id, Ego, and Superego
- •Research Focus: How the Fear of Death Causes Aggressive Behavior
- •Strengths and Limitations of Freudian and Neo-Freudian Approaches
- •Focusing on the Self: Humanism and Self-Actualization
- •Research Focus: Self-Discrepancies, Anxiety, and Depression
- •Studying Personality Using Behavioral Genetics
- •Studying Personality Using Molecular Genetics
- •Reviewing the Literature: Is Our Genetics Our Destiny?
- •11.4 Chapter Summary
- •Chapter 12
- •Defining Psychological Disorders
- •When Minor Body Imperfections Lead to Suicide
- •12.1 Psychological Disorder: What Makes a Behavior “Abnormal”?
- •Defining Disorder
- •Psychology in Everyday Life: Combating the Stigma of Abnormal Behavior
- •Diagnosing Disorder: The DSM
- •Diagnosis or Overdiagnosis? ADHD, Autistic Disorder, and Asperger’s Disorder
- •Attention-Deficit/Hyperactivity Disorder (ADHD)
- •Autistic Disorder and Asperger’s Disorder
- •12.2 Anxiety and Dissociative Disorders: Fearing the World Around Us
- •Generalized Anxiety Disorder
- •Panic Disorder
- •Phobias
- •Obsessive-Compulsive Disorders
- •Posttraumatic Stress Disorder (PTSD)
- •Dissociative Disorders: Losing the Self to Avoid Anxiety
- •Dissociative Amnesia and Fugue
- •Dissociative Identity Disorder
- •Explaining Anxiety and Dissociation Disorders
- •12.3 Mood Disorders: Emotions as Illness
- •Behaviors Associated with Depression
- •Dysthymia and Major Depressive Disorder
- •Bipolar Disorder
- •Explaining Mood Disorders
- •Research Focus: Using Molecular Genetics to Unravel the Causes of Depression
- •12.4 Schizophrenia: The Edge of Reality and Consciousness
- •Symptoms of Schizophrenia
- •Explaining Schizophrenia
- •12.5 Personality Disorders
- •Borderline Personality Disorder
- •Research Focus: Affective and Cognitive Deficits in BPD
- •Antisocial Personality Disorder (APD)
- •12.6 Somatoform, Factitious, and Sexual Disorders
- •Somatoform and Factitious Disorders
- •Sexual Disorders
- •Disorders of Sexual Function
- •Paraphilias
- •12.7 Chapter Summary
- •Chapter 13
- •Treating Psychological Disorders
- •Therapy on Four Legs
- •13.1 Reducing Disorder by Confronting It: Psychotherapy
- •DSM-IV-TR Criteria for Diagnosing Attention-Deficit/Hyperactivity Disorder (ADHD)
- •Psychology in Everyday Life: Seeking Treatment for Psychological Difficulties
- •Psychodynamic Therapy
- •Important Characteristics and Experiences in Psychoanalysis
- •Humanistic Therapies
- •Behavioral Aspects of CBT
- •Cognitive Aspects of CBT
- •Combination (Eclectic) Approaches to Therapy
- •13.2 Reducing Disorder Biologically: Drug and Brain Therapy
- •Drug Therapies
- •Using Stimulants to Treat ADHD
- •Antidepressant Medications
- •Antianxiety Medications
- •Antipsychotic Medications
- •Direct Brain Intervention Therapies
- •13.3 Reducing Disorder by Changing the Social Situation
- •Group, Couples, and Family Therapy
- •Self-Help Groups
- •Community Mental Health: Service and Prevention
- •Some Risk Factors for Psychological Disorders
- •Research Focus: The Implicit Association Test as a Behavioral Marker for Suicide
- •13.4 Evaluating Treatment and Prevention: What Works?
- •Effectiveness of Psychological Therapy
- •Research Focus: Meta-Analyzing Clinical Outcomes
- •Effectiveness of Biomedical Therapies
- •Effectiveness of Social-Community Approaches
- •13.5 Chapter Summary
- •Chapter 14
- •Psychology in Our Social Lives
- •Binge Drinking and the Death of a Homecoming Queen
- •14.1 Social Cognition: Making Sense of Ourselvesand Others
- •Perceiving Others
- •Forming Judgments on the Basis of Appearance: Stereotyping, Prejudice, and Discrimination
- •Implicit Association Test
- •Research Focus: Forming Judgments of People in Seconds
- •Close Relationships
- •Causal Attribution: Forming Judgments by Observing Behavior
- •Attitudes and Behavior
- •14.2 Interacting With Others: Helping, Hurting, and Conforming
- •Helping Others: Altruism Helps Create Harmonious Relationships
- •Why Are We Altruistic?
- •How the Presence of Others Can Reduce Helping
- •Video Clip: The Case of Kitty Genovese
- •Human Aggression: An Adaptive yet Potentially Damaging Behavior
- •The Ability to Aggress Is Part of Human Nature
- •Negative Experiences Increase Aggression
- •Viewing Violent Media Increases Aggression
- •Video Clip
- •Research Focus: The Culture of Honor
- •Conformity and Obedience: How Social Influence Creates Social Norms
- •Video Clip
- •Do We Always Conform?
- •14.3 Working With Others: The Costs and Benefits of Social Groups
- •Working in Front of Others: Social Facilitation and Social Inhibition
- •Working Together in Groups
- •Psychology in Everyday Life: Do Juries Make Good Decisions?
- •Using Groups Effectively
- •14.4 Chapter Summary
millimeter in length and the longest radio waves being hundreds of kilometers long. Humans are blind to almost all of this energy—our eyes detect only the range from about 400 to 700 billionths of a meter, the part of the electromagnetic spectrum known as the visible spectrum.
Figure 4.6 The Electromagnetic Spectrum
Only a small fraction of the electromagnetic energy that surrounds us (the visible spectrum) is detectable by the
human eye.
The Sensing Eye and the Perceiving Visual Cortex
As you can see in Figure 4.7 "Anatomy of the Human Eye", light enters the eye through
the cornea, a clear covering that protects the eye and begins to focus the incoming light. The light then passes through the pupil, a small opening in the center of the eye. The pupil is surrounded by the iris, the colored part of the eye that controls the size of the pupil by constricting or dilating in response to light intensity. When we enter a dark movie theater on a sunny day, for instance, muscles in the iris open the pupil and allow more light to enter. Complete adaptation to the dark may take up to 20 minutes.
Behind the pupil is the lens, a structure that focuses the incoming light on the retina, the layer of tissue at the back of the eye that contains photoreceptor cells. As our eyes move from near objects to distant objects, a process known as visual
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accommodation occurs. Visual accommodation is the process of changing the curvature of the lens to keep the light entering the eye focused on the retina. Rays from the top of the image strike the bottom of the retina and vice versa, and rays from the left side of the image strike the right part of the retina and vice versa, causing the image on the retina to be upside down and backward. Furthermore, the image projected on the retina is flat, and yet our final perception of the image will be three dimensional.
Figure 4.7 Anatomy of the Human Eye
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Light enters the eye through the transparent cornea, passing through the pupil at the center of the iris. The lens adjusts to focus the light on the retina, where it appears upside down and backward. Receptor cells on the retina send information via the optic nerve to the visual cortex.
Accommodation is not always perfect, and in some cases the light that is hitting the retina is a bit out of focus. As you can see in Figure 4.8 "Normal, Nearsighted, and Farsighted Eyes", if the focus is in front of the retina, we say that the person is nearsighted, and when the focus is behind the retina we say that the person is farsighted. Eyeglasses and contact lenses correct this problem by adding another lens in front of the eye, and laser eye surgery corrects the problem by reshaping the eye’s own lens.
Figure 4.8 Normal, Nearsighted, and Farsighted Eyes
For people with normal vision (left), the lens properly focuses incoming light on the retina. For people who are nearsighted (center), images from far objects focus too far in front of the retina, whereas for people who are farsighted (right), images from near objects focus too far behind the retina. Eyeglasses solve the problem by adding a secondary, corrective, lens.
The retina contains layers of neurons specialized to respond to light (see Figure 4.9 "The Retina With Its Specialized Cells"). As light falls on the retina, it first activates receptor cells known as rods and cones. The activation of these cells then spreads to the bipolar cells and then to
the ganglion cells, which gather together and converge, like the strands of a rope, forming the optic nerve. The optic nerve is a collection of millions of ganglion neurons that sends vast amounts of visual information, via the thalamus, to the brain. Because the retina and the optic
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nerve are active processors and analyzers of visual information, it is not inappropriate to think of these structures as an extension of the brain itself.
Figure 4.9 The Retina With Its Specialized Cells
When light falls on the retina, it creates a photochemical reaction in the rods and cones at the back of the retina. The reactions then continue to the bipolar cells, the ganglion cells, and eventually to the optic nerve.
Rods are visual neurons that specialize in detecting black, white, and gray colors. There are about 120 million rods in each eye. The rods do not provide a lot of detail about the images we see, but because they are highly sensitive to shorter-waved (darker) and weak light, they help us see in dim light, for instance, at night. Because the rods are located primarily around the edges of the retina, they are particularly active in peripheral vision (when you need to see something at night, try looking away from what you want to see). Cones are visual neurons that are
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specialized in detecting fine detail and colors. The 5 million or so cones in each eye enable us to see in color, but they operate best in bright light. The cones are located primarily in and around the fovea, which is the central point of the retina.
To demonstrate the difference between rods and cones in attention to detail, choose a word in this text and focus on it. Do you notice that the words a few inches to the side seem more blurred? This is because the word you are focusing on strikes the detail-oriented cones, while the words surrounding it strike the less-detail-oriented rods, which are located on the periphery.
As you can see in Figure 4.11 "Pathway of Visual Images Through the Thalamus and Into the Visual Cortex", the sensory information received by the retina is relayed through the thalamus to corresponding areas in the visual cortex, which is located in the occipital lobe at the back of the brain. Although the principle of contralateral control might lead you to expect that the left eye would send information to the right brain hemisphere and vice versa, nature is smarter than that. In fact, the left and right eyes each send information to both the left and the right hemisphere, and the visual cortex processes each of the cues separately and in parallel. This is an adaptational advantage to an organism that loses sight in one eye, because even if only one eye is functional, both hemispheres will still receive input from it.
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Figure 4.11 Pathway of Visual Images Through the Thalamus and Into the Visual Cortex
The left and right eyes each send information to both the left and the right brain hemisphere.
The visual cortex is made up of specialized neurons that turn the sensations they receive from the optic nerve into meaningful images. Because there are no photoreceptor cells at the place where the optic nerve leaves the retina, a hole or blind spot in our vision is created (see Figure 4.12 "Blind Spot Demonstration"). When both of our eyes are open, we don’t experience a problem
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because our eyes are constantly moving, and one eye makes up for what the other eye misses. But the visual system is also designed to deal with this problem if only one eye is open—the visual cortex simply fills in the small hole in our vision with similar patterns from the surrounding areas, and we never notice the difference. The ability of the visual system to cope with the blind spot is another example of how sensation and perception work together to create meaningful experience.
Figure 4.12 Blind Spot Demonstration
You can get an idea of the extent of your blind spot (the place where the optic nerve leaves the retina) by trying this demonstration. Close your left eye and stare with your right eye at the cross in the diagram. You should be able to see the elephant image to the right (don’t look at it, just notice that it is there). If you can’t see the elephant, move closer or farther away until you can. Now slowly move so that you are closer to the image while you keep looking at the cross. At one distance (probably a foot or so), the elephant will completely disappear from view because its image has fallen on the blind spot.
Perception is created in part through the simultaneous action of thousands of
feature detector neurons—specialized neurons, located in the visual cortex, that respond to the strength, angles, shapes, edges, and movements of a visual stimulus (Kelsey, 1997; Livingstone & Hubel, 1988). [2] The feature detectors work in parallel, each performing a specialized function. When faced with a red square, for instance, the parallel line feature detectors, the horizontal line feature detectors, and the red color feature detectors all become activated. This activation is then passed on to other parts of the visual cortex where other neurons compare the information supplied by the feature detectors with images stored in memory. Suddenly, in a flash
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of recognition, the many neurons fire together, creating the single image of the red square that we experience (Rodriguez et al., 1999). [3]
Figure 4.13 The Necker Cube
The Necker cube is an example of how the visual system creates perceptions out of sensations. We do not see a series of lines, but rather a cube. Which cube we see varies depending on the momentary outcome of perceptual processes in the visual cortex.
Some feature detectors are tuned to selectively respond to particularly important objects, for instance, faces, smiles, and other parts of the body (Downing, Jiang, Shuman, & Kanwisher, 2001; Haxby et al., 2001). [4] When researchers disrupted face recognition areas of the cortex using the magnetic pulses of transcranial magnetic stimulation (TMS), people were temporarily unable to recognize faces, and yet they were still able to recognize houses (McKone, Kanwisher, & Duchaine, 2007; Pitcher, Walsh, Yovel, & Duchaine, 2007). [5]
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