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Problem Solving and the Brain

Problem Solving and the Brain. Behavioral Studies of Insight. Metcalfe’s experiment (from earlier). Ss. studied insight problems (e.g. algebra) as well as non-insight problems At 15 seconds intervals, ss. rated how close they felt to solving the problem

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Problem Solving and the Brain

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  1. Problem Solving and the Brain

  2. Behavioral Studies of Insight • Metcalfe’s experiment (from earlier). • Ss. studied insight problems (e.g. algebra) as well as non-insight problems • At 15 seconds intervals, ss. rated how close they felt to solving the problem • Only for insight problems, ss. suddenly increased warmness ratings before solving problem • Perhaps insight is special? But how do we really know what really happens during insight?

  3. Promise of Brain Imaging Studies • Difficult to link behavioral data to internal processes -- e.g., do warmness ratings really show that insight occurs rapidly? • With brain imaging techniques, we can get converging evidence for a special insight process. Does insight occur suddenly, in the brain, as behavioral data suggests? • Jung-Beeman et al. (2004). Studied neural correlates of “aha” moment using fMRI and EEG

  4. Jung-Beeman et al. • Compound Remote Associate Problems Example: pine, crab, sauce Question: what word can form a familiar compound word or phrase with the each of these words? Solution: apple (pineapple, crabapple, applesauce)

  5. Example Problems

  6. fMRI • Functional Magnetic Resonance Imaging • Measures cerebral blood flow (related to neural activity) in different areas • Results are usually based on the difference in response between experimental and baseline condition MRI scan

  7. Experimental Setup Ss. press button when they solved a problem Ss. press button when they felt insight during problem solving Measure brain response here

  8. Areas showing greater fMRI signal for insight than non-insight solutions increased activity in the right hemisphere anterior Superior Temporal Gyrus

  9. EEG / ERP • EEG: Electroencephalography • Electrodes placed at the scalp; measuring changes in voltage • High temporal resolution, poor spatial resolution – good to measure when processes are initiated as opposed to where

  10. Example of EEG

  11. EEG Results Measure high frequency oscillations in gamma band (> 30Hz) For insight problems that were correctly solved, a burst of gamma frequencies 0.3 seconds were observed before the solution response

  12. EEG Results Animation of the last half second (from -0.5 to -0.2) of high-frequency electrical activity at the scalp prior to the button press indicating subjects had solved a problem with insight. from: http://www.psych.nwu.edu/~mjungbee/PLoS_Supp.htm

  13. Brain Studies of Moral Reasoning

  14. The Trolley Dilemma • A trolley is running out of control down a track. In its path are 5 people who have been tied to the track by a mad person. Fortunately, you can flip a switch which will lead the trolley down a different track. Unfortunately, there is a single person tied to that track. Should you flip the switch? If you do nothing, the trolley will kill five, but if you intervene it will kill only one. Should you “kill one person” to save five? SWITCH

  15. What justifies your judgment ? • “Save as many as you can.” • “The good of the many outweighs the good of the few.” • “Act so that you provide the maximum benefit to the maximum number of people.”

  16. The footbridge dilemma • similar to trolley dilemma • A runaway trolley threatens to kill five people. You are standing on a footbridge over the tracks, next to a large stranger. If you push the stranger onto the tracks, killing him, his body will prevent the train from reaching the others, saving them. Do you push?

  17. Most people answer yes to the trolley question, no to the footbridge question • Perhaps what’s wrong with killing the large man to save five is that it would be using the one as a mere means for the benefit of others

  18. Variant of trolley dilemma As before, a trolley is hurtling down a track towards five people. As in the first case, you can divert it onto a separate track. On this track is a single large man. Without the body of this man, the trolley would, if turned that way, make its way to the other track and kill the five people. If it wasn't for the presence of the large man, flipping the switch would not save the five. Should you flip the switch? SWITCH

  19. The Surgeon’s Dilemma You are a surgeon with six patients. Five of them need major organ transplants, which you could easily do if you had access to transplant organs. The sixth, an ideal donor for all the relevant organs, has a cold. Should you kill one person to save five?

  20. Philosophers have puzzled over why people believe it is morally acceptable to sacrifice one life for five in one case, but unacceptable in the other • Difficult to find a unifying set of principles that explains what is morally acceptable

  21. The psychology of moral reasoning • Prescriptive question: what is right and wrong?  Philosophy/Ethics • Descriptive question: what are happens during moral reasoning?  psychology • Traditional view (e.g. Kant): moral judgment is primarily a matter of formal reasoning. • Recent insights (Haidt): moral thinking is highly intuitive and emotional, and only appears to be a product of careful reasoning because of people’s after-the-fact rationalizations of their thinking.

  22. Perhaps the thought of pushing somebody to death is more emotionally salient • Hypothesis (Greene et al.): differences in emotional engagement determine difference in response • Trolley dilemma: “impersonal” moral dilemma. • Footbridge dilemma: “personal” moral dilemma. requires active personal involvement

  23. Recent Brain Imaging Insights • Greene et al.: performed brain imaging experiments to reveal differences in the way the emotional circuits in brain are activated during moral reasoning.

  24. fMRI Results

  25. Trolley dilemma: “impersonal” moral dilemma  activated memory areas • Footbridge dilemma: “personal” moral dilemma requires active personal involvement  activated brain areas associated with emotion

  26. Behavioral Results

  27. Footbridge dilemma activates immediate emotional response • A few subjects still say “appropriate”. • These response times should be slow because the response is “incongruent” with the immediate emotional response

  28. Results do not show how to reason correctly • They show what happens during reasoning -- intuitive emotional reactions affect moral judgments

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