Color phi phenomenon
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The color phi phenomenon is the fact that, when
The classic color phi phenomenon experiment involves a viewer or audience watching a screen, upon which the experimenter projects two images in succession. The first image depicts a blue dot at the top of the frame. The second image depicts a red dot on the bottom of the frame. The images may be shown quickly, in rapid succession, or each frame may be given several seconds of viewing time. Once both images have been projected, the experimenter asks the viewer or audience to describe what they saw.
At certain combinations of spacing and timing of the two images, a viewer will report a sensation of motion in the space between the two dots. The first spot will begin to appear to be moving, and will then "change color abruptly in the middle of its illusory path".
Philosophical significance
The existence of the color phi phenomenon poses an interesting philosophical problem. When asked to describe their experience, subjects report seeing the abrupt color change before the second dot is presented. However, it is impossible for a subject to actually experience the color change before the second dot has been presented.
Philosopher Daniel Dennett utilizes the color phi phenomenon in his argument against a philosophy known as Cartesian materialism.[2] Psychobiologist John Staddon contrasts a simple "new behaviorism" interpretation of color phi with Dennett and Kinsbourne's account. The basic idea is that because of well-known processes such as lateral inhibition, the internal states created by the two stimuli are identical, hence are so reported.[3] Alternatively, phi can be explained without Dennett's argument.[4]
See also
References
- S2CID 19376707.
- ISBN 978-0-316-18065-8.
- ^ John Staddon The New Behaviorism: Foundation of behavioral science (3rd edition)| 2021|
- ^ Bringsjord, Selmer (6 December 1996). "Explaining phi without Dennett's exotica: Good ol' computation suffices". Retrieved 26 September 2023.
External links
- An interactive demonstration of the color phi phenomenon.