Information about Physical Systems
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Physical System (example)
In physics the word system has a technical meaning, namely, it is the portion of the physical universe chosen for analysis. Everything outside the system is known as the environment, which in analysis is ignored except for its effects on the system. The cut between system and environment is a free choice, generally made to simplify the analysis as much as possible. An isolated system is one which has negligible interaction with its environment.
Often a system in this sense is chosen to correspond to the more usual meaning of system, such as a particular machine. But physical systems are often more esoteric: an atom, the water in a lake, or indeed the water in the left-hand half of a lake can all be considered as physical systems. In the study of quantum decoherence the "system" may refer to the macroscopic properties of an object (e.g. the position of a pendulum bob), while the relevant "environment" may be the internal degrees of freedom, described classically by the pendulum's thermal vibrations.
Complexity in physical systems
The complexity of a physical system is equal to the probability of its being in a particular state vector.If one considers a classical Newtonian ball situation with a number of perfectly moving physical bodies bouncing off the walls of a container, the system-state probability does not change over time. The entropy of the system changes over time, but the probability of the state vector does not change. One can periodically evaluate the complexity of this system, and the complexity of this system does not change.
In a physical system, a lower probability state vector is equivalent to a higher complexity. A self sustaining low probability state vector allows the physical system to remain in a higher complexity state. The study of such systems as applied to our universe is in its infancy and speculative in nature, but it appears that there are some low probability systems that are able to sustain themselves through time.
In mathematical systems, one can consider the complexity of particular states more easily. For example, if one considers a Turing machine that generates random symbols and then utilizes these symbols as an algorithm to create a new series of symbols, the complexity of the final string of symbols is nearly mathematically equivalent to the minimum size of a string required to produce a larger string on a Turing machine as defined by algorithmic information theory.
The closed systems concepts in physics
Heisenberg notes that in physics, there is actually four, possibly five, different conceptual developments of closed systems concepts:- The first began with reference to Newtonian mechanics,
- the second with nineteenth century thermodynamics,
- the third throughout the twentieth century with Lorentz, Einstein, and Minkowski,
- and finally with conceptual developments in quantum theory and wave mechanics
See also
References
External links
Physics is the science of matter[1] and its motion[2][3], as well as space and time[4][5] —the science that deals with concepts such as force, energy, mass, and charge.
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The Universe is defined as the summation of all particles and energy that exist and the space-time in which all events occur. Based on observations of the portion of the Universe that is observable, physicists attempt to describe the whole of space-time, including all matter and
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System (from Latin systēma, in turn from Greek σύστημα systēma) is a set of entities, real or abstract, where each entity interacts with, or is related to, at least one other
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This article or section may be confusing or unclear for some readers.
Please [improve the article] or discuss this issue on the talk page. This article has been tagged since April 2007.
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Please [improve the article] or discuss this issue on the talk page. This article has been tagged since April 2007.
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Degrees of freedom is a general term used in explaining dependence on parameters, and implying the possibility of counting the number of those parameters.
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Degrees of freedom in mechanics (physics)
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Complexity in general usage is the opposite of simplicity. Complexity in specific usage is the opposite of independence, while complication is the opposite of simplicity.
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Probability is the likelihood that something is the case or will happen. Probability theory is used extensively in areas such as statistics, mathematics, science and philosophy to draw conclusions about the likelihood of potential events and the underlying mechanics of
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- A quantum state vector fully specifies any quantum mechanical state in which a quantum mechanical system can be.
- A geographical state vector specifies the position and velocity of an object in space.
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Newton's laws of motion are three physical laws which provide relationships between the forces acting on a body and the motion of the body, first compiled by Sir Isaac Newton.
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An abstract structure is a formal object that is defined by a set of laws, properties, and relationships in a way that is logically if not always historically independent of the structure of contingent experiences, for example, those involving physical objects.
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Turing machines are extremely basic abstract symbol-manipulating devices which, despite their simplicity, can be adapted to simulate the logic of any computer that could possibly be constructed. They were described in 1936 by Alan Turing.
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In mathematics, computing, linguistics, and related disciplines, an algorithm is a finite list of well-defined instructions for accomplishing some task that, given an initial state, will proceed through a well-defined series of successive states, eventually terminating in an
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Algorithmic information theory is a subfield of information theory and computer science that concerns itself with the relationship between computation and information. According to Gregory Chaitin, it is "the result of putting Shannon's information theory and Turing's computability
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Werner Heisenberg
Werner Karl Heisenberg
Born November 5 1901
Würzburg, Germany
Died January 1 1976 (aged 76)
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Werner Karl Heisenberg
Born November 5 1901
Würzburg, Germany
Died January 1 1976 (aged 76)
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A closed system is a system in the state of being isolated from the environment. It is often used to refer to a theoretical scenario where perfect closure is an assumption, however in practice no system can be completely closed; there are only varying degrees of closure.
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open system is a state of a system, in which a system continuously interacts with its environment. Open systems are those that maintain their state and exhibit the characteristics of openness previously mentioned.
Open systems contrast the closed systems.
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Open systems contrast the closed systems.
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phase space, introduced by Willard Gibbs in 1901, is a space in which all possible states of a system are represented, with each possible state of the system corresponding to one unique point in the phase space.
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For other uses, see Phenomena (disambiguation).
A phenomenon (Greek: φαινόμενoν, pl. phenomena φαινόμενα) is any occurrence that is observable...... Click the link for more information.
A conceptual system is a system that is comprised of non-physical objects, i.e. ideas or concepts. In this context a system is taken to mean "an interrelated, interworking set of objects".
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Overview
A conceptual systems is simply a model...... Click the link for more information.
System (from Latin systēma, in turn from Greek σύστημα systēma) is a set of entities, real or abstract, where each entity interacts with, or is related to, at least one other
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Systems science is the interdisciplinary field of science surrounding systems theory, cybernetics, the science of complex systems. It aims to develop interdisciplinary foundations, which are applicable in a variety of areas, such as engineering, biology, medicine and social
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Systems science is the interdisciplinary field of science surrounding systems theory, cybernetics, the science of complex systems. It aims to develop interdisciplinary foundations, which are applicable in a variety of areas, such as engineering, biology, medicine and social
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system is a group of organs that together perform a certain task. Common systems, such as those present in mammals and other animals, seen in human anatomy, are those such as the circulatory system, the respiratory system, the nervous system, etc.
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Complex system is a system comprised of interconnected simple parts, that together exhibit a high degree of complexity from which emerges a higher order behavior. Examples of complex systems include ant-hills, ants themselves, human economies, climate, nervous systems, cells and
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Complex adaptive systems are special cases of complex systems. They are complex in that they are diverse and made up of multiple interconnected elements and adaptive in that they have the capacity to change and learn from experience.
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A conceptual system is a system that is comprised of non-physical objects, i.e. ideas or concepts. In this context a system is taken to mean "an interrelated, interworking set of objects".
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Overview
A conceptual systems is simply a model...... Click the link for more information.
A cultural system may be defined as the interaction of different elements of culture. While a cultural system is quite different from a social system, sometimes both systems together are referred to as the sociocultural system.
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dynamical system concept is a mathematical formalization for any fixed "rule" which describes the time dependence of a point's position in its ambient space. Examples include the mathematical models that describe the swinging of a clock pendulum, the flow of water in a pipe, and
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Economic systems
Ideologies and Theories
Primitive communism
Capitalist economy
Corporate economy
Fascist economy
Laissez-faire
Mercantilism
Natural economy
Social market economy
Socialist economy
Communist economy
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Ideologies and Theories
Primitive communism
Capitalist economy
Corporate economy
Fascist economy
Laissez-faire
Mercantilism
Natural economy
Social market economy
Socialist economy
Communist economy
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ecosystem is a natural unit consisting of all plants, animals and micro-organisms in an area functioning together with all the non-living physical factors of the environment.
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