Litcius/Paper detail

The thermodynamics of cognition: A mathematical treatment

Éva Déli, James F. Peters, Zoltán F. Kisvárday

2021Computational and Structural Biotechnology Journal29 citationsDOIOpen Access PDF

Abstract

There is a general expectation that the laws of classical physics must apply to biology, particularly the neural system. The evoked cycle represents the brain's energy/information exchange with the physical environment through stimulus. Therefore, the thermodynamics of emotions might elucidate the neurological origin of intellectual evolution, and explain the psychological and health consequences of positive and negative emotional states based on their energy profiles. We utilized the Carnot cycle and Landauer's principle to analyze the energetic consequences of the brain's resting and evoked states during and after various cognitive states. Namely, positive emotional states can be represented by the reversed Carnot cycle, whereas negative emotional reactions trigger the Carnot cycle. The two conditions have contrasting energetic and entropic aftereffects with consequences for mental energy. The mathematics of the Carnot and reversed Carnot cycles, which can explain recent findings in human psychology, might be constructive in the scientific endeavor in turning psychology into hard science.

Topics & Concepts

Carnot cycleConstructiveCognitionPsychologyEnergy (signal processing)Cognitive psychologyCognitive sciencePhysicsComputer scienceNeuroscienceThermodynamicsQuantum mechanicsProcess (computing)Operating systemStress Responses and CortisolNeural dynamics and brain functionNeuroscience, Education and Cognitive Function
The thermodynamics of cognition: A mathematical treatment | Litcius