CHAPTER 7
LEARNING
Basic Learning Concepts and Classical Conditioning
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Learning is the process of acquiring through experience new information or behaviors. In associative learning, we learn that certain events occur together. In classical conditioning, we learn to associate two or more stimuli (a stimulus is any event or situation that evokes a response). We associate stimuli that we do not control, and we respond automatically. This is called respondent behavior. In operant conditioning, we learn to associate a response and its consequences. These associations produce operant behaviors. Through cognitive learning, we acquire mental information that guides our behavior. For example, in observational learning, we learn new behaviors by observing events and watching others.
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Ivan Pavlov’s work on classical conditioning laid the foundation for behaviorism, the view that psychology should be an objective science that studies behavior without reference to mental processes. The behaviorists believed that the basic laws of learning are the same for all species, including humans.
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Ivan Pavlov, a Russian physiologist, created novel experiments on learning. His early twentieth-
Classical conditioning is a type of learning in which an organism comes to associate stimuli. In classical conditioning, an NS is a stimulus that elicits no response before conditioning. A UR is an event that occurs naturally (such as salivation), in response to some stimulus. A US is something that naturally and automatically (without learning) triggers the unlearned response (as food in the mouth triggers salivation). A CS is a previously neutral stimulus (such as a tone) that, after association with a US (such as food) comes to trigger a CR. A CR is the learned response (salivating) to the originally neutral (but now conditioned) stimulus.
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In classical conditioning, acquisition is associating an NS with the US so that the NS begins triggering the CR. Acquisition occurs most readily when the NS is presented just before (ideally, about a half-
Extinction is diminished responding when the CS no longer signals an impending US. Spontaneous recovery is the appearance of a formerly extinguished response, following a rest period. Generalization is the tendency to respond to stimuli that are similar to a CS. Discrimination is the learned ability to distinguish between a CS and other irrelevant stimuli.
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Pavlov taught us that significant psychological phenomena can be studied objectively, and that classical conditioning is a basic form of learning that applies to all species.
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Classical conditioning techniques are used to improve human health and well-
Pavlov’s work also provided a basis for Watson’s idea that human emotions and behaviors, though biologically influenced, are mainly a bundle of conditioned responses. Watson applied classical conditioning principles in his studies of “Little Albert” to demonstrate how specific fears might be conditioned.
Operant Conditioning
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In operant conditioning, behaviors followed by reinforcers increase; those followed by punishers often decrease.
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B. F. Skinner was a college English major and aspiring writer who later entered psychology graduate school. He became modern behaviorism’s most influential and controversial figure.
Expanding on Edward Thorndike’s law of effect, Skinner and others found that the behavior of rats or pigeons placed in an operant chamber (Skinner box) can be shaped by using reinforcers to guide closer and closer approximations of the desired behavior.
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Reinforcement is any consequence that strengthens behavior. Positive reinforcement adds a desirable stimulus to increase the frequency of a behavior. Negative reinforcement removes an aversive stimulus to increase the frequency of a behavior.
Primary reinforcers (such as receiving food when hungry or having nausea end during an illness) are innately satisfying—
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A reinforcement schedule defines how often a response will be reinforced. In continuous reinforcement (reinforcing desired responses every time they occur), learning is rapid, but so is extinction if rewards cease. In partial (intermittent) reinforcement (reinforcing responses only sometimes), initial learning is slower, but the behavior is much more resistant to extinction. Fixed-
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Punishment administers an undesirable consequence (such as spanking) or withdraws something desirable (such as taking away a favorite toy) in an attempt to decrease the frequency of a behavior (a child’s disobedience). Negative reinforcement (taking an aspirin) removes an aversive stimulus (a headache). This desired consequence (freedom from pain) increases the likelihood that the behavior (taking aspirin to end pain) will be repeated.
Punishment can have undesirable side effects, such as suppressing rather than changing unwanted behaviors; teaching aggression; creating fear; encouraging discrimination (so that the undesirable behavior appears when the punisher is not present); and fostering depression and feelings of helplessness.
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Critics of Skinner’s principles believed the approach dehumanized people by neglecting their personal freedom and seeking to control their actions. Skinner replied that people’s actions are already controlled by external consequences, and that reinforcement is more humane than punishment as a means for controlling behavior.
At school, teachers can use shaping techniques to guide students’ behaviors, and they can use interactive software and websites to provide immediate feedback. In sports, coaches can build players’ skills and self-
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In operant conditioning, an organism learns associations between its own behavior and resulting events; this form of conditioning involves operant behavior (behavior that operates on the environment, producing rewarding or punishing consequences). In classical conditioning, the organism forms associations between stimuli—
Biology, Cognition, and Learning
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Classical conditioning principles, we now know, are constrained by biological predispositions, so that learning some associations is easier than learning others. Learning is adaptive: Each species learns behaviors that aid its survival. Biological constraints also place limits on operant conditioning. Training that attempts to override biological constraints will probably not endure because animals will revert to predisposed patterns.
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In classical conditioning, animals may learn when to expect a US and may be aware of the link between stimuli and responses. In operant conditioning, cognitive mapping and latent learning research demonstrate the importance of cognitive processes in learning. Other research shows that excessive rewards (driving extrinsic motivation) can undermine intrinsic motivation.
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In observational learning, as we observe and imitate others we learn to anticipate a behavior’s consequences because we experience vicarious reinforcement or vicarious punishment. In associative learning, we merely learn associations between different events.
Our brain’s frontal lobes have a demonstrated ability to mirror the activity of another’s brain. Some psychologists believe mirror neurons enable this process. The same areas fire when we perform certain actions (such as responding to pain or moving our mouth to form words) as when we observe someone else performing those actions.
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Children tend to imitate what a model does and says, whether the behavior being modeled is prosocial (positive, constructive, and helpful) or antisocial. If a model’s actions and words are inconsistent, children may imitate the hypocrisy they observe.