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Purposive Learning01:22

Purposive Learning

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 bonus...
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Instinctive Drift

Instinctive drift refers to the tendency of animals to revert to their innate behaviors despite repeated reinforcement. Breland and Breland demonstrated this concept in an experiment with a raccoon. The raccoon was trained to pick up two coins and place them in a container in exchange for food. Initially, the raccoon learned to associate the coins with food, making them a conditioned stimulus or a substitute for food. However, over time, the raccoon became less willing to put the coins into the...
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Neuroplasticity

Neuroplasticity reflects the brain's remarkable capacity to adapt and evolve, responding dynamically to learning, experiences, or injury by reorganizing its neural circuitry. This reorganization involves creating new neural connections and refining old ones through a series of biological processes that contribute to the brain's lifelong development and adaptability.
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Natural selection, a fundamental concept in evolutionary biology, is the mechanism by which evolution is driven, favoring organisms that are best adapted to their environments. This process enhances their chances of survival and reproduction. Adaptation, a key outcome of this process, involves genetic modifications that optimize an organism's functionality under specific environmental challenges, such as extreme cold or thinner air at high altitudes.
Beyond physical adaptations, psychological...
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Nonconscious Mimicry

Nonconscious mimicry occurs when individuals alter their mannerisms to match the behaviors and expressions of those nearby, without intention.

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Related Experiment Video

Updated: May 15, 2026

Visualizing Visual Adaptation
04:43

Visualizing Visual Adaptation

Published on: April 24, 2017

Adapting without reinforcement.

Aaron Kheifets1, C Randy Gallistel

  • 1Department of Psychology; Rutgers University; Piscataway, NJ USA.

Communicative & Integrative Biology
|January 22, 2013
PubMed
Summary
This summary is machine-generated.

Behavioral models relying on differential reinforcement were disproven. Subjects adapted strategies optimally, even without missed rewards, indicating reinforcement does not solely guide behavioral change.

Keywords:
decision under uncertaintymodel-based controlprobability estimationreinforcement learningtiming

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Area of Science:

  • Behavioral science
  • Cognitive psychology
  • Reinforcement learning

Background:

  • Differential reinforcement is a key concept in behavioral models.
  • Understanding the drivers of behavioral change is crucial for various fields.

Purpose of the Study:

  • To investigate the role of differential reinforcement in guiding behavioral change.
  • To test the sufficiency of missed reinforcers in driving adaptive behavior.

Main Methods:

  • Subjects' behavior shifts were analyzed in response to reinforcement schedules.
  • The number of missed reinforcers before behavioral adaptation was quantified.

Main Results:

  • The number of missed reinforcers was insufficient to explain behavioral shifts.
  • Many subjects adopted optimal strategies without missing any reinforcers.

Conclusions:

  • Differential reinforcement alone does not drive behavioral adaptation.
  • Behavioral change can occur optimally without explicit negative feedback from missed reinforcers.