Determinism

This article is about the general notion of determinism in philosophy. For other uses of the word "determinism" see: Deterministic (disambiguation).

.

The principal consequence of deterministic philosophy is that free will (except as defined in strict compatibilism) becomes an illusion. It is a popular misconception that determinism necessarily entails that all future events have already been determined (a position known as Fatalism); this is not obviously the case, and the subject is still debated among metaphysicians. Determinism is associated with, and relies upon, the ideas of Materialism and Causality. Some of the philosophers who have dealt with this issue are Omar Khayyám, David Hume, Thomas Hobbes, Immanuel Kant, and, more recently, John Searle.

With Earth's first Clay They did the Last Man's knead,

And then of the Last Harvest sow'd the Seed:

  Yea, the first Morning of Creation wrote

What the Last Dawn of Reckoning shall read.

(Rubaiyat of Omar Khayyam, LIII, rendered into English verse by Edward FitzGerald)

The exact meaning of the term "determinism" has historically been subject to various interpretations. Some view determinism and free will as mutually exclusive, whereas others, labelled "Compatibilists", believe that the two ideas can be coherently reconciled. Most of this disagreement is due to the fact that the definition of "free will," like determinism, varies. Some feel it refers to the metaphysical truth of independent agency, whereas others simply define it as the feeling of agency that humans experience when they act. For example, David Hume argued that while it is possible that one does not freely arrive at one's set of desires and beliefs, the only meaningful interpretation of freedom relates to one's ability to translate those desires and beliefs into voluntary action.

The idea that the entire universe is a deterministic system has been articulated in both Western and non-Western religion, philosophy, and literature. The Ancient Greek atomists Leucippus and Democritus were the first to anticipate determinism when they theorized that all processes in the world were due to the mechanical interplay of atoms, but this theory did not gain much support at the time. Determinism in the West is often associated with Newtonian physics, which depicts the physical matter of the universe as operating according to a set of fixed, knowable laws. The "billiard ball" hypothesis, a product of Newtonian physics, argues that once the initial conditions of the universe have been established the rest of the history of the universe follows inevitably. If it were actually possible to have complete knowledge of physical matter and all of the laws governing that matter at any one time, then it would be theoretically possible to compute the time and place of every event that will ever occur (Laplace's demon). In this sense, the basic particles of the universe operate in the same fashion as the rolling balls on a billiard table, moving and striking each other in predictable ways to produce predictable results.

Whether or not it is all-encompassing in so doing, Newtonian mechanics deals only with caused events, e.g.: If the original position of an object is x, y, z, and if it is hit dead on by an object moving along some vector V, then it will be pushed straight toward another point x', y', z'. If it goes somewhere else, the Newtonians argue, one must question one's measurements of the original position of the object, the exact direction of the object moving on V, gravitational or other fields that were inadvertently ignored, etc. Then, they maintain, repeated experiments and improvements in accuracy will always bring one's observations closer to the theoretically predicted results. When dealing with situations on an ordinary human scale, Newtonian physics has been so enormously successful that it has no competition. But it fails spectacularly as velocities become some substantial fraction of the speed of light and when interactions at the atomic scale are studied. Prior to the discovery of quantum effects and other challenges to Newtonian physics, "uncertainty" was always a term that applied to the accuracy of human knowledge about causes and effects, and not to the causes and effects themselves.

In the East, determinism has been expressed in the Buddhist doctrine of Dependent Origination, which states that every phenomenon is conditioned by, and depends on, the phenomena that it is not. A common teaching story, called the Net of Indra, illustrates this point. A vast auditorium is decorated with mirrors and/or prisms hanging on strings of different lengths from an immense number of points on the ceiling. One flash of light is sufficient to light the entire display since light bounces and bends from hanging bauble to hanging bauble. Each bauble lights each and every other bauble. So, too, each of us is "lit" by each and every other entity in the Universe. In Buddhism, this teaching is used to demonstrate that to ascribe special value to any one thing is to ignore the interdependence of all things. Volitions of all sentient creatures determine the seeming reality in which we perceive ourself as living, rather than a mechanical universe determining the volitions which humans imagine themselves to be forming.

In the story of the Net of Indra, the light that streams back and forth throughout the display is the analog of karma. The word "karma" does not mean anything like "the result of a past good or bad action." "Karma" refers to an action, or, more specifically, to an one's life as one's project.

The followers of the philosopher Mo Zi (or "Mo Tzu" if you prefer the earlier Wade-Giles Romanization) made some early discoveries in optics and other areas of physics, ideas that were consonant with deterministic ideas, but the vine that produced this early fruit quickly withered and died.

== Arguments against determinism ==arguing that statements of fact can and should be made independently of their consequences. Thus, even if determinism is inconsistent with the idea of a moral universe, that does not necessarily invalidate its conclusions. The presumed social utility of ideas of crime and justice should not be permitted, they argue, to override questions of truth.

Contemporary U.S. philosopher Donald Davidson, among others, has argued that if people behaved in an uncaused way then one would describe their actions as insane, not as free. His view is consonant with the philosophical position advocated by Mencius that maintains that one's innate characteristics are the result of deterministic causation, that among these innate characteristics there exists a set of drives (analogous to other drivesne to be and on being de facto responsible for all the consequences of what one fabricatedpoints, and the distribution of their hits can be calculated reliably. In that sense the -level consequences. It is easy to contrive situations in which the arrival of an electron at a perform an action, or injecting one with a truth serum to provide accurate testimony. In neither case would traditional morality find the acted upon individual to be responsible for his actions.

If probabilistically determined events do have an impact on the macro events such as whether a person who could be historically important dies in youth of a cancer caused by a random mutation, then the course of history is not determined from the dawn of time. But some authorities argue against the reality of such probabilistically determined events and/or argue that events on the atomic scale cannot influence the course of events on the macro scale.

Some people have argued that in addition to the conditions humans can observe and the rules they can deduce there are hidden factors or hidden variables that determine absolutely in which order electrons reach the screen. They argue that the course of the universe is absolutely determined, but that humans are screened from knowledge of the determinative factors. So, they say, it only appears that things proceed in a merely probabilistically determinative way. Actually, they proceed in an absolutely determinative way. Although matters are still subject to some measure of dispute, quantum mechanics makes statistical predictions that would be violated if some underlying reason unknown to us existed. There have been a number of experiments to verify those predictions, and so far they do not appear to be violated although many physicists believe better experiments are needed to conclusively settle the question. See Bell test experiments.

The well known experimental physicist Dr. Herbert P. Broida [1] (1920-1978) taught his statistical mechanics class at The University of California at Santa Barbara that the probabilities arise in the transition from quantum to classical descriptions, rather than within quantum mechanics, as sometimes supposed. The time dependent Schrödinger equation gives the first time derivative of the quantum mechanical state. That is, it explicitly and uniquely predicts the development of the wave function with time.

File:Schrödinger time dependent.jpg

So quantum mechanics is deterministic, provided that one accepts the wave function itself as reality (rather than as probability of classical coordinates). This is true also in more advanced cases. Since we have no practical way of knowing the exact magnitudes, and especially the phases, in a full quantum mechanical description of the causes of an observable event, this turns out to be philosophically similar to the "hidden variable" doctrine.

According to some, quantum mechanics is more stronglyÉ reality.

Intrinsic to the debate concerning determinism is the issue of first cause. Deism, a philosophy articulated in the seventeenth century, holds that the universe has been deterministic since creation, but ascribes the creation to a metaphysical God or first cause outside of the chain of determinism. God may have begun the process, Deism argues, but God has not influenced its evolution. This perspective illustrates a puzzle underlying any conception of determinism:

Assume: All events have causes, and their causes are all prior events.

The picture this gives us is that Event A_N is preceded by A_N-1, which is preceded by A_N-2, and so forth.

Under that assumption, two possibilities seem clear, and both of them question the validity of the original assumption:

(1) There is an event A₀ prior to which there was no other event that could serve as its cause.

(2) There is no event A₀ prior to which there was no other event, which means that we are presented with an infinite series of causally related events, which is itself an event, and yet there is no cause for this infinite series of events.

Under this analysis the original assumption must have something wrong with it. It can be fixed by admitting one exception, a creation event (either the creation of the original event or events, or the creation of the infinite series of events) that is itself not a caused event in the sense of the word "caused" used in the formulation of the original assumption. Some agency, which many systems of thought call God, creates space, time, and the entities found in the universe by means of some process that is analogous to causation but is not causation as we know it. This solution to the original difficulty has led people to question whether there is any reason for there only being one divine quasi-causal act, whether there have not been a number of events that have occurred outside the ordinary sequence of events, events that may be called miracles. The extreme philosophical position in this line of development was held by Leibniz, who held in his monistic philosophy that all seemingly causal interactions between two (or more) entities, A <-> B, are actually interactions mediated by God, A<->God<->B.

Immanuel Kant carried forth this idea of Leibniz in his idea of transcendental relations, and as a result had a profound effect on later philosophical attempts to sort these issues out. His most influential immediate successor, a strong critic whose ideas were yet strongly influenced by Kant, was Edmund Husserl, the developer of the school of philosophy called phenomenology. But the central concern of that school was to elucidate not physics but the grounding of information that physicists and others regard as empirical. In an indirect way, this train of investigation appears to have contributed much to the philosophy of science called logical positivism and particularly to the thought of members of the Vienna Circle, all of which have had much to say, at least indirectly, about ideas of determinism.

One approach to determinism is to argue that materialism does not present a correct understanding of the universe, not because it is wrong in its general picture of the determinate interactions that occur among material things, but because it ignores the souls of human beings. The soul is understood to be an autonomous agent of choice that has the power to control the body but not to be controlled by the body. Therefore it stands to the activities of the individual human body as does the creator of the universe to the universe. The creator of the universe put in motion a deterministic system of material entities that would, if left to themselves, carry out the chain of events determined by ordinary causation. But the creator also provided for souls that could exert a causal force analogous to the primordial causal force and alter outcomes in the physical universe via the acts of their bodies. No events in the physical universe are uncaused. Some are caused entirely by the original creative act and the way it plays itself out through time, and some are caused by the acts of created souls. But those created souls were not created by means of physical processes involving ordinary causation. They are another order of being entirely, gifted with the power to modify the original creation.

The question of how these immaterial entities can act upon material entities is deeply involved in what is generally known as the mind-body problem. It is a problem which has as yet received no answer within the universe of discourse related to the physical universe.

Since the early twentieth century when astronomer Edwin Hubble first hypothesized that red shift shows the universe is expanding, prevailing scientific opinion has been that the universe started with a Big Bang, and therefore has a finite age. Different astrophysicists hold different views about precisely how the universe originated (Cosmogony), but a consistent viewpoint is that scientific determinism has held at the macroscopic level since the universe came into being.

In emergentist or generative philosophy of cognitive sciences and evolutionary psychology, free will is the generation of infinite behaviour from the interaction of finite-deterministic set of rules and parameters. Thus the unpredictability of the emerging behaviour from deterministic processes leads to a perception of free will, though free will as an ontological entity does not exist.

As an illustration, the strategy board-games chess and Go have rigorous rules in which no information (such as cards' face-values) is hidden from either player and no random events (such as dice-rolling) happen within the game. Yet, chess and especially Go with its extremely simple deterministic rules, can still have an extremely large number of unpredictable moves. By analogy, emergentists or generativists suggest that the experience of free will emerges from the interaction of finite rules and deterministic parameters that generate infinite and unpredictable behaviour. Yet, if all these events were accounted for, and there were a known way to evaluate these events, the seemingly unpredictable behaviour would become predictable.

Dynamical-evolutionary psychology, cellular automata and the generative sciences, model emergent processes of social behaviour on this philosophy, showing the experience of free will as essentially a gift of ignorance or as a product of incomplete information.

• Block time
• Biological determinism
• Causality
• Chaos theory
• Compatibilism
• Deterministic system (philosophy)
• Free will
• Game theory
• Genetic determinism
• Historical Materialism
• Interpretation of quantum mechanics
• Open Theism
• Philosophical interpretation of classical physics
• Scientific determinism
• Social determinism
• Voluntarism

• Dictionary of the history of Ideas: Determinism in History
• Philosopher Ted Honderich's Determinism web resource
• An Introduction to Free Will and Determinism by Paul Newall, aimed at beginners.
• Determinism An Essay by Peter Gill
• Where's The Free Will? An Exploration of This Elusive Concept by Gordon M. Orloff
• Stanford Encyclopedia of Philosophy entry on Causal Determinism

• Albert Messiah, Quantum Mechanics, English translation by G. M. Temmer of Mécanique Quantique, 1966, John Wiley and Sons, vol. I, chapter IV, section III.
• A lecture to his statistical mechanics class at the University of California at Santa Barbara by Dr. Herbert P. Broida [2] (1920-1978) (a well known experimental physicist)
• "Physics and the Real World" by George F. R. Ellis, Physics Today, July, 2005 — This article seems to make the common error of thinking quantum probability goes on in nature; but its explanation, in terms of homeostasis, of why life is understandable in terms so different from those of microscopic physics is relevant to the distinction between physical and moral determinism.