Subjective-objective dichotomy: Difference between revisions
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:<font face="Gill Sans MT">" | :<font face="Gill Sans MT">"We do not see things as they are; We see things as we are"<ref name=Talmud/> | ||
::: | ::: —Rabbi Shermuel ben Nachmann as quoted in the Talmudic tractate Berakhat</font> | ||
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:<font face="Gill Sans MT">" | :<font face="Gill Sans MT">"For the eye sees only what the mind is prepared to comprehend."<ref name=Davies/> | ||
::: | ::: —Robertson Davies: ''Tempest-Tost, p. 107''</font> | ||
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For an extensive discussion of the origins of this quotation, often attributed to | For an extensive discussion of the origins of this quotation, often attributed to Anaïs Nin, see {{cite web |title="We don't see things..." |work=Quote Investigator |url=http://quoteinvestigator.com/2014/03/09/as-we-are/ |editor=Garson O’Toole |accessdate=August 2, 2016}} | ||
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For example, see [http://www.tannerlectures.utah.edu/lectures/documents/popper80.pdf Three Worlds by Karl Popper - The Tanner Lecture on Human Values] - Delivered by Karl Popper at The University of Michigan on April 7, 1978. | For example, see [http://www.tannerlectures.utah.edu/lectures/documents/popper80.pdf Three Worlds by Karl Popper - The Tanner Lecture on Human Values] - Delivered by Karl Popper at The University of Michigan on April 7, 1978. | ||
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Latest revision as of 06:00, 23 October 2024
The subjective–objective dichotomy, a longstanding philosophical topic, is concerned with the analysis of human experience, and of what within experience is "subjective" and what is "objective." The dichotomy arises from the premise that the world consists of objects (entities) which are perceived or otherwise presumed by subjects (observers) to exist as entities. This division of experience results in questions regarding how subjects relate to objects. An important sub-topic is the question of how our own mind relates to other minds, and how to treat the "radical difference that holds between our access to our own experience and our access to the experience of all other human beings", known as the epistemological problem of other minds.[1]
The subjective–objective dichotomy can be discussed from two standpoints. First is the question of "what" is known. The field of ontology deals with questions concerning what entities exist or can be said to exist, and how such entities can be grouped, related within a hierarchy, and subdivided according to similarities and differences. The second standpoint is that of "how" does one know what one knows. The field of epistemology questions what knowledge is, how it is acquired, and to what extent it is possible for a given entity to be known. It includes both subjects and objects.
Subjective-objective dichotomy
The world "out there" is perceived by the mind, and so also is the interior world of conscious events. The relation between the two is much debated:
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A very literal application of these last two quotations is studied in the subject of inattentional blindness.[11] Another phenomenon related to the last quotation is the idée fixe. The role of our theories about the objective world in conditioning our subjective response and vice versa suggests that the subject, the I, is not localized to the individual but is partly to be found in the society in which the individual is immersed, and that portion of the society to which the individual is exposed.[12][13]
The objective aspects of experience often are considered to lie within the domain of science. Science has practical impact upon technology and our understanding of interconnections. However, there are areas where science so far has had little impact. So there exists a difference in optimism about science, with one view opining that science will gradually extend to everything,[14] and the opposite view opining that won't happen. For example, the statement is found in many books:
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This approach is the foundation of the 'blue brain' project, an effort to create a synthetic brain by reverse-engineering the mammalian brain. On the other hand, a contrary view is that aspects of mind are inherently subjective, and lie outside the reach of a scientific approach based upon objective observation by a detached observer:
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One set of difficulties facing an objective study of subjective phenomena are summed up in the easy problem of consciousness and the hard problem of consciousness:
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The subjective aspects of science extend beyond the "hard problem", however. The formulation of a scientific theory is a mental process, not simply a matter of observation, although observation is involved. This realization takes the subjective-objective distinction to a more general level than arguments over the prospects of success in bringing certain areas of experience within the grasp of science.
For example, a statement of a scientific theory could take the form: All events p are determined by other events P . In order to be consistent with science today, and avoid oversimplification, one has to be very clear about how the events (p, P) are defined. One also has to replace "determined" by something like "logically imply".
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This quote indicates the need for great care in defining "events" and what is meant by "determined". Their meaning involves detailed descriptions of what constitutes an "event" and how one is said to "determine" another. A Popper-like view emerges with an "event" as some kind of formalized "state" and the relationship "determines" phrased as a "logical implication" of connection between states, all combined as parts of one or another abstract theory.[20] That formalization puts a lot of emphasis upon mental constructions.[21] From the stance of a Duhem, or a Popper, or a Hawking, the use of an intermediary, elaborate mental construction is a meld of the subjective and objective. It is used to determine connections about objective events, but the form of the theoretical construct is a product of subjective activities, and its particular form may well be more about the brain than anything else. Perhaps some aspects of the universe's operation can be expressed in terms of mental constructs in an analogy with the expression of a computer algorithm in terms of assembly language instructions peculiar to a particular computer, a translation of the algorithm into specific tiny steps that particular computer can handle, .[22]
Lest this apparatus be thought of as an entirely formal understanding, some among us actually do have an intuitive grasp of these creative abstractions, perhaps analogous to the fact that some among us hear music in ambient sounds. Quoting Feynman about his creative process:
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This comment could be paralleled by others about the intuitions of musicians and mathematicians.[24] The point is that the creation of scientific theories is subjective, and the very concepts of determinism are themselves subjective and mutable creations of the human mind. What is in charge here: the intuition conceiving the theory, or the theory that results; or is it an unending back-and-forth spiral from one to the other? The development of a theory is something of a bootstrapping process that might never converge.
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Our theories about the world are mental constructions, so we have a hen-and-egg problem trying to figure out if our theories work for describing our mental life:
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A rather different aspect of the subjective-objective divide is the role of social inhibition, a factor at work from the times of the Roman Inquisition and Galileo to the Scopes trial[27] and Kennewick Man[28]. A more recent concern is the structure of the educational system and the control over financing of research.[29][30] There is a concern about the intrusion of societal elements into what is supposed to be an objective matter.[31]
The exact opposite to this worry about the subjective coloring the objective, is the contrary worry that the language and practice of science is squeezing out the subjective aspects of experience:
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One aspect of this concern over undervaluing the subjective is debate over the basis for moral responsibility and its connection with free will, for example, the dilemma of determinism.[34][35]
The role of theories
- See also: Qualia and Behavioral neurology
Some subjective personal experiences have aspects that fall squarely into the realm of objective fact, and have implications that can be objectively verified. In some instances, it is debatable as to which is the epiphenomenon, the subjective event or its observable correlate. For example, there is debate over whether the placebo effect indicates a mental influence over the body.[36]
An example is the experience of pain, an entirely subjective matter,[37] but one that sometimes (but not invariably) can be related to the objectively observable operation of receptors, communication channels and brain activity. The consequence is that the subjective sense of pain is sometimes empirically connected to observable events, but the fundamental experience of pain itself is subjective. Other examples are addiction and psychological disorders. Besides the subjective aspects, one may discuss the mechanisms connecting subjective experiences and objective observables, and the role of programming upon these connections, such as psychiatric treatment, behavioral conditioning, and evolutionary limits.
As technology advances, the ability of humans to detect what is happening around them advances. This progress in observational technique extends to the brain and possibly the mind, and to our perceptive abilities. An example is the use of the PET scan in observing correlations between addiction and dopamine activity in the brain.[38]
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These advances in observational technique require associated interpretation and theoretical models that explain what the observations mean. For example, when Galileo advanced the use of the telescope to observe the moons of Jupiter, skeptics doubted that the telescope actually showed reality.[40] This old example only scratches the surface of relating scientific instruments to reality. After all, one could extrapolate from mundane terrestrial uses of the telescope, where its veracity could be directly examined, to more distant objects like Jupiter. The introduction of the microscope had a similar struggle for acceptance.[41] Today however, only a few among us can understand the complexity of observations made with the hadron collider, and we rely upon certification by carefully selected experts. The importance of extremely technical theory in the experts' interpretation is obvious to all, and these theories, while supported by experimental observation, are products of the human subjective imagination.
The notion persists that observations are immutable, and only the theories connecting them are mutable. However, in philosophy the notion of the incommensurability of scientific theories has been raised, that is the question of the connection between theories that ostensibly overlap in connecting some of the "same" observations.[42] The argument is raised that an observation itself is colored by the theory that includes it, and that to a limited degree the observation is a creature of the theory that incorporates it. "On Feyerabend's view, because the nature of objects depends on the most advanced theories about them, and because the meaning of observation statements depends on the nature of those objects, the interpretation of an observation language is determined by the theories we use to explain what we observe."[42] Historically, glaring inconsistencies sometimes have been ignored simply because of the subjective attraction to an hypotheses.[43]
The subjective aspect of scientific theories has led to a need to assess theories, to be able to choose one theory as preferable to another without introducing cognitive bias.[44] Over the years, several criteria have been proposed.[45][46][47]
- It is elegant (Formal elegance; no ad hoc modifications)
- Contains few arbitrary or adjustable elements (Simplicity/Parsimony)
- Agrees with and explains all existing observations (Unificatory/Explanatory power)
- Makes detailed predictions about future observations that can disprove or falsify the model if they are not borne out.
- Boldness/fruitfulness: a theory's seminality in suggesting future work.
The falsifiability item on the list is related to the criterion proposed by Popper:[48]
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About his choice of criteria, Kuhn says: "What, I ask to begin with, are the characteristics of a good scientific theory? Among a number of quite usual answers I select five, not because they are exhaustive, but because they are individually important and collectively sufficiently varied to indicate what is at stake."[49] Colyvan says: "I do not claim that this list is comprehensive nor do I claim that it is minimal."[45] Stephen Hawking supports items 1-4, but does not mention fruitfulness.[46]
The goal here is to make the choice between theories less arbitrary. Nonetheless, these criteria contain subjective elements, and are heuristics rather than part of scientific method. Such criteria may not prove definitive in selecting a theory because the criteria sometimes conflict and different people will weight them differently.[50] It also is debatable whether existing scientific theories satisfy all these criteria, and they may represent goals not yet achieved, a set of "New Year's resolutions", if you like. For example, Item 3: explanatory power over all existing observations, is satisfied by no one theory at the moment.[51]
The desiderata of a "good" theory have been debated for centuries, going back perhaps even earlier than Occam's razor,[53] which often is taken as an attribute of a good theory. Occam's razor might fall under the heading of "elegance", the first item on the list, but too zealous an application was cautioned by Einstein: "Everything should be made as simple as possible, but no simpler."[54] Thomas Kuhn argued that changes in scientists' views of reality not only contain subjective elements, but result from group dynamics, "revolutions" in scientific practice and changes in "paradigms".[55] As an example, Kuhn suggested that the Sun-centric Copernican "revolution" replaced the Earth-centric views of Ptolemy not because of empirical failures, but because of a new "paradigm" that exerted control over what scientists felt to be the more fruitful way to pursue their goals (Colyvan's requirement of "fruitfulness"). Whatever criteria one adopts for a 'good' theory, Worrall says the question of an objective algorithm for theory choice at the moment leaves open the question of what exactly it is rational or irrational to do. "One reason that these criteria do not supply [constitute] a choice algorithm is that, in live [ongoing] cases of theory choice, and particularly during scientific revolutions, these different criteria seldom, if ever, tell in the same direction [all point the same way]."[56] (Wording in [...] brackets added). In other words, although these criteria assist in identifying a 'good' theory, the selection among theories still is a subjective matter that will lead to different choices depending upon who is the judge. The environment of scientific practice has been described as including some hypothetical and subjective aspects, namely:[57]
To what extent our mental creations are limited by the innate functioning of our brain/nervous system (what might be called our "factory settings") and to what extent they mirror the real world is discussed in the field of psychological nativism, and is connected with the philosophers Kant, Schopenhauer, Popper, Chomsky, Pinker, Hawking and others.[58] Complementary descriptionsThe subjective and objective correlates of some phenomena (like addiction or mental disorder) actually might describe the same phenomena from distinct perspectives; in other words, they might be complementary views:
Niels Bohr also believed there were differences between first-person and third-person perspectives, an outgrowth of his experience in atomic physics. However, in his view the two descriptions are irreconcilable because of the disturbance of the subject's first-person mental state by the third-person's act of observation itself:
Some weak indirect support for this analogy is found in observations of the neural correlates of mental states:
AntireductionismThe above discussion shows the uneasy relation between the subjective and the objective, and attempts to reconcile the two continue:
The basis of 'objectivity' has been sought in raw perception:
while others have pointed out that "raw perception" is influenced by preconceptions:[66]
Some authors look to science to ultimately include the whole picture, hoping that a more complete understanding of complex feedback systems and emergence will bring subjectivity within science.[67] Others look to the evolution of religion to expand the understanding of man and his place in the universe.[64] Still others look to a clear recognition of the limitations of science to open our minds to a different type of understanding altogether.[62]
In early philosophyThe question of what is objective and what is subjective, and whether one or the other is more "real" has been a topic of philosophy since its earliest days. In Western philosophy it can be found in Plato, who considered our perceptions to be mere approximations to the world of ideal Forms, in the way that circles we encounter in nature are mere approximations to the ideal circle. The world of Forms was accessible only by the mind, not the senses. Contrary views were held by Aristotle, who would hold the "ideal" circle is only an abstraction from its many real-world examples, and without those examples the ideal circle simply would not exist. See this discussion about "instantiation", whether 'properties' are universals or particulars. These two views of how the concepts of the mind relate to the perception of the world resurface again and again in later centuries, rephrased in novel terminologies. Some of these later treatments of the subject-object relationship were tied to theological issues. A not-so-serious example is the question "If a tree fall in the forest, and no one is around to hear it, does it make a sound?"[71] Although not the originator of this exact question, George Berkeley (1685-1753) proposed that objects (and trees specifically) exist only when perceived by a conscious being, and to avoid the absurdities of this view posited that because God was omnipresent, things existed because they were in His consciousness.[72]
According to a famous anecdote, Samuel Johnson responded to Berkeley's views by kicking a stone and saying 'I refute it thus ', a refutation Boswell took to illustrate that Johnson's genius could be profitably applied to philosophical matters.[73] One might argue that Johnson's experiment instances Berkeley's point: the stone existed because Johnson became aware of it, and kicking it only enhanced Johnson's awareness. In any event, Berkeley is correct within the interpretation that all we can know of reality is our perceptions of it. Berkeley's view is summarized in the Latin phrase: Esse est percipi, to be is to be perceived. A similar view predating Berkeley was proposed by Spinoza (1632-1677), who held that "every particular thing or being is a modification of the infinite substance i.e. of God. It expresses itself by each of his attributes, in particular that of extension and that of thought...to Spinoza any inanimate bodily thing is at the same time also ‘a thought of God’"[74] This idea is expressed in the Jesuit admonition to "find God in all things" (a maxim of Ignatius of Loyola put forth in his Exercises of 1548[75]) and is carried to a modern perspective by Pierre Teilhard de Chardin with the concept of the noosphere, "a thinking layer containing the collective consciousness of humanity which will envelope the earth"[76] and the idea that "the old conception of matter and mind be replaced with a new notion of “matter-spirit”. The noosphere is the culmination of the evolution of consciousness (which is a continuation of biological evolution)."[77][78] "We must infer the presence of potential mind in all material systems, by backward extrapolation from the human phase to the biological, and from the biological to the inorganic."[79] In 18th and 19th century philosophyTo say it simply, Immanuel Kant (1724-1804) pointed out that we all shape our experience of things through the filter of our mind. The mind shapes that experience, and among other things, Kant believed the concepts of space and time were programmed into the human brain, as was the notion of cause and effect.[80] We never have direct experience of things, the noumenal world, and what we do experience is the phenomenal world as conveyed by our senses, this conveyance processed by the machinery of the mind and nervous system. Kant focused upon this processing. Kant believed in a priori knowledge arrived at independent of experience, so-called synthetic a priori knowledge. In particular, he thought that by introspection some aspects of the filtering mechanisms of the mind/brain/nervous system could be discovered.[80] These observations summarize Kant's views upon the subject-object problem, called Kant's Copernican revolution. It was the inversion of the traditional relation between the observing subject and the outer object of knowledge:
Chomsky and Pinker have taken this idea further back than languages that are actually in use, to a question of how the brain itself functions:
Thus, like Kant, Chomsky and Pinker raise the issue of the mind's inherent programming. Chomsky selected as a particular example the acquiring of language by children.[58] Chomsky marshaled evidence that a child's rapid mastery of the complexity of language indicated an innate ability programmed into the development of the human mind from birth that could not be explained by the "blank slate" view of the infant mind. Rather, the mind has a built-in propensity to process symbolic representations. The origins of this ability were sought by Pinker in a Darwinian struggle that established the survival value of the ability to communicate.[91] According to Pinker, Charles Darwin himself "concluded that language ability is 'an instinctive tendency to acquire an art', a design that is not peculiar to humans but seen in other species such as song-learning birds." References
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