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Law of Effect01:06

Law of Effect

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B.F. Skinner, a prominent figure in behavioral psychology, introduced operant conditioning by emphasizing the role of consequences in shaping behavior. This theory builds upon the law of effect proposed by Edward Thorndike, which posits that behaviors followed by satisfying outcomes are likely to be repeated. In contrast, those followed by unsatisfying outcomes are less likely to recur.
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Timing and Consequences on Behavior01:08

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In operant conditioning, the timing of reinforcement is crucial. For animals like rats and cats, immediate reinforcement (within a few seconds) is much more effective than delayed reinforcement. For example, a food reward for a rat needs to follow within 30 seconds of pressing a bar to be effective. 
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Purposive Learning01:22

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E. C. Tolman emphasized the purposiveness of behavior — the idea that much of our behavior is goal-directed. For instance, employees who aim for a promotion work diligently to meet their targets. Tolman argued that when classical conditioning and operant conditioning occur, the organism acquires certain expectations. In classical conditioning, a child might fear a dog because they expect it to bite. In operant conditioning, a person might consistently work overtime because they expect a...
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Observational Learning01:12

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Albert Bandura's observational learning, also known as imitation or modeling, occurs when a person observes and imitates another's behavior. It is a quicker process than operant conditioning. A well-known example is the Bobo doll study, where children who saw an adult acting aggressively towards the doll were more likely to act aggressively when left alone, compared to those who observed a nonaggressive adult. Many psychologists view observational learning as a form of latent learning...
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Operant Conditioning01:21

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Operant conditioning, a key concept in behavioral psychology, involves using reinforcement and punishment to alter the likelihood of a behavior being repeated. B.F. introduced this type of conditioning. Skinner focused on voluntary behaviors and the consequences that follow them, influencing whether these behaviors will be strengthened or diminished.
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Avoidance Learning and Learned Helplessness01:14

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Avoidance learning and learned helplessness are critical concepts in understanding behavioral responses to negative stimuli.
Avoidance learning occurs when an organism learns that a specific behavior can prevent an unpleasant outcome. For example, a student who receives a bad grade may start studying harder to avoid future poor grades. This behavior persists even when the negative outcome is no longer present. Avoidance learning is powerful because it maintains behavior in the absence of the...
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Related Experiment Video

Updated: Mar 25, 2026

Simultaneous Detection of c-Fos Activation from Mesolimbic and Mesocortical Dopamine Reward Sites Following Naive Sugar and Fat Ingestion in Rats
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Dynamic mesolimbic dopamine signaling during action sequence learning and expectation violation.

Anne L Collins1, Venuz Y Greenfield1, Jeffrey K Bye1

  • 1Dept. of Psychology, UCLA, Los Angeles, CA 90095, USA.

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Learning shapes dopamine signaling in the brain. Dopamine levels rise during action sequences, adapting with experience and reward expectation, influencing motivation.

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Area of Science:

  • Neuroscience
  • Behavioral Neuroscience
  • Dopamine Signaling

Background:

  • Mesolimbic dopamine changes occur during spatial navigation.
  • The conditions and learning-dependent development of this dopamine signaling are not well understood.

Purpose of the Study:

  • To investigate dopamine concentration changes in the nucleus accumbens core during instrumental action sequence learning and performance.
  • To understand how dopamine signaling adapts with learning, overtraining, and reward expectation violations.

Main Methods:

  • Monitoring dopamine concentration in the nucleus accumbens core of rats.
  • Utilizing an instrumental action sequence task to assess learning and performance.
  • Analyzing dopamine dynamics in response to task engagement, reward value, and identity changes.

Main Results:

  • Prolonged dopamine concentration changes were observed, ramping up during action sequence execution and declining post-reward.
  • With learning, dopamine signaling initiated earlier in the sequence and backpropagated, becoming linked to distal reward predictors.
  • Dopamine signaling reactivated with task disengagement and changes in reward value, correlating with sequence performance.

Conclusions:

  • Action sequences can induce prolonged dopamine signaling in the nucleus accumbens core.
  • This dopamine signaling is dynamic with learning, motivation, overtraining, and reward expectation.
  • Dopamine signaling in this context relates to the motivation driving sequence execution.