「Entropy」の共起表現一覧(1語右で並び替え)

Entropy

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  • am was still in possession of their own flag; Entropy, a game of strategy in which player teams att
  • Any structure implicit in the finite entropy against a quantum description could then be t
  • The normal distribution N(μ,σ2) has maximum entropy among all real-valued distributions with spec
  • and Bruce J. West, “Multiresolution diffusion entropy analysis of time series: an application to bi
  • A quantum black hole only has finite entropy and therefore presumably exists in one of a l
  • arity properties of a Gaussian process to its entropy and covariance structure.
  • er Strassen for making the connection between entropy and regularity.
  • that cosmological event horizons also have an entropy and temperature.
  • eries Wonders of the Universe to help explain Entropy and its effect on time.
  • hropomorphic personification of the forces of entropy and chaos, the counterpart of the White Guard
  • entropy to demonstrate the similarity between entropy and information.
  • e Planck, "the logarithmic connection between entropy and probability was first stated by L. Boltzm
  • temperature and, by the no hair theorem, zero entropy, and the laws of black hole mechanics remain
  • irreversible circuit, the information becomes entropy and an associated amount of energy is dissipa
  • areas of physics of information; information, entropy, and complexity; quantum information theory;
  • y discover that Logopolis is being overrun by entropy and turning to dust.
  • echnique, leading to the principle of maximum entropy, and the MaxEnt view of thermodynamics.
  • ng and expands for some time, with increasing entropy and a thermodynamic arrow of time pointing in
  • By using the following basic equations for entropy and Helmholtz free energy, we can model the d
  • that of Ludwig Boltzmann's 1870s theories of entropy and order and disorder.
  • pers on various topics such as randomness and entropy, and teaching geometry to children.
  • first mathematical version of the concept of entropy, and also gave it its name.
  • rime, also known as "the Fallen"; overseer of entropy and Warrior of Darkness, now a herald of Unic
  • based on the thermodynamic definition of the entropy, and require extremely careful calorimetry.
  • fated plea to vengeance demon Anyanka; and in Entropy, Anya's unsuccessful attempts to enact her ow
  • relative entropies subtracted from the total entropy are 0.
  • ests that the idea of thermodynamic state and entropy are somewhat subjective.
  • tion, Frank L. Lambert argued that portraying entropy as "disorder" is confusing and should be aban
  • nally, 20th century textbooks have introduced entropy as order and disorder so that it provides "a
  • Then, in 2002 “ Entropy Is Simple , Qualitatively” described the spon
  • ixed by matching the semiclassical black hole entropy, as calculated by Stephen Hawking, and the co
  • hing arbitrarily high temperature and maximal entropy as the end of the collapse approaches.
  • is possible (in a thermal context) to regard entropy as an indicator or measure of the effectivene
  • ion (the first of which sometimes called free entropy), as cited by American engineer Willard Gibbs
  • n associated with Frank L. Lambert describing entropy as energy dispersal describes entropy as meas
  • The conformational entropy associated with a particular conformation is
  • The "disorder" and hence the entropy associated with the change in the atomic alig
  • rature and the area of the event horizon with entropy, at least up to some multiplicative constants
  • Entropy Automatic (self-released, 2004)
  • During steady-state continuous operation, an entropy balance applied to an open system accounts fo
  • These have residual entropy, because the atom-by-atom microscopic structu
  • In information theory, the cross entropy between two probability distributions measure
  • , the holographic principle and the covariant entropy bound of quantum gravity, and can be derived
  • olographic bound, also known as the covariant entropy bound.
  • define a life form as an entity that reduces entropy by self-executing the minimum set of physical
  • hy even though Hawking radiation has non-zero entropy, calculations so far have been unable to rela
  • inal work), from which the correct Bekenstein entropy can then be deduced.
  • Their black hole entropy can often be calculated in string theory, muc
  • ity can be roughly interpreted as saying that entropy can only be canceled by an equal amount of en
  • e qualitative relation of energy dispersal to entropy change can be so inextricably obscured that i
  • nd to be 6008 joules at 273 K. Therefore, the entropy change per mole is , or 22 J/K.
  • Entropy change is the quantitative measure of that ki
  • inative model that extends a standard maximum entropy classifier by assuming that the unknown value
  • s of features and classes, while in a maximum entropy classifier the weights, which are typically m
  • ogit model, it is commonly known as a maximum entropy classifier, or MaxEnt model for short.
  • e classifier in machine learning, see maximum entropy classifier.
  • Maximum entropy classifiers are commonly used as alternatives
  • t likely state of the universe as one of high entropy, closer to uniform and without order.
  • The zigzag entropy coding used in JPEG images is evocative of th
  • The article on Shannon's information entropy contains a good explanation of the discrete c
  • Penrose associates the initial low entropy content of the Universe with the effective va
  • these problems is rooted in a concept of the entropy content of gravitational fields.
  • singularity (the Big Bang), he proposes, the entropy content of the cosmological gravitational fie
  • If entropy continues to increase in the contracting phas
  • d solubility is determined by the unfavorable entropy contribution due to the ordering of the water
  • ∆Smc is the entropy cost for fixing the backbone in the folded st
  • e particle into a computing apparatus with no entropy cost; but only if the apparatus has already b
  • ameter appears in the denominator because the entropy counts the number of edges puncturing the eve
  • ressions and hence determine the enthalpy and entropy departures.
  • The concept of entropy developed in response to the observation that
  • A temperature entropy diagram, or T-s diagram, is used in thermodyn
  • This definition of entropy does not have a clear thermodynamical interpr
  • ts are quantized and the quantized values are entropy encoded and/or run length encoded.
  • ree energy perturbation (FEP), quasi-harmonic entropy estimation, correlation analysis and combined
  • t the New Wave, based on his Ph.D thesis, The Entropy Exhibition: Michael Moorcock and the British
  • The Entropy Exhibition: Michael Moorcock and the British
  • ead confusion and can hinder comprehension of entropy for most students.
  • The information gain is equal to the total entropy for an attribute if for each of the attribute
  • It is also called the relative entropy, for using Q instead of P.
  • The Maximum Entropy Formalism (ed.
  • It can be shown that the Gibbs entropy formula, with the natural logarithm, reproduc
  • ents (CVEs) as a means of excising off excess entropy from this universe into others as to stave of
  • natural extension of the principle of maximum entropy from discrete to continuous distributions, fo
  • H(p) is distinguished from the entropy function by its taking a single scalar consta
  • It also features an entropy gathering utility, coming in different versio
  • xchange design based on two original methods: entropy generation minimization, and constructal theo
  • ructal law of design and evolution in nature, entropy generation minimization, scale analysis of co
  • is the entropy generation contributed by heat transfer
  • is the entropy generation contributed by fluid friction.
  • Volume entropy h is always bounded above by the topological
  • The BGS entropy has been used in the context of quantum gravi
  • ation, the system should exhibit no change in entropy, i.e.
  • d) in the UK, and on Russo's own South Cherry Entropy imprint of Virtual Label digitally in North A
  • fficient when sorting data which exhibits low entropy, in effect where the data is well ordered or
  • ible for an overall increase in the amount of entropy in the Universe, and so inducing a cosmologic
  • S - specific entropy in kJ per kilogram-kelvin
  • second law of thermodynamics states that the entropy in the universe will always increase.
  • It is defined as b raised to the power of entropy in base b, or more often as b raised to the p
  • his critique of the inadequacy of describing entropy in terms of “disorder”.
  • resources for chemistry instructors, equating entropy increase as the spontaneous dispersal of ener
  • will be no net exchange of heat or work - the entropy increase will be entirely due to the mixing o
  • ures, there will, of course, be an additional entropy increase due to these differences being equil
  • A special case of entropy increase, the entropy of mixing, occurs when
  • irections of the atomic magnets represents an entropy increase?
  • esks, and Disorderly Dorm Rooms - Examples of Entropy Increase?
  • ut never reaches thermodynamic equilibrium as entropy increases continuously without limit due to t
  • Katok's entropy inequality was recently exploited to obtain a
  • Furthermore, if the entropy integral on the right-hand side converges, th
  • The standard molar entropy is usually given the symbol S°, and the units
  • Therefore configuration entropy is the same as macroscopic entropy.
  • Its differential entropy is then
  • E.g. its entropy is captured by a law directly analogous to th
  • The configurational entropy is also known as microscopic entropy or confo
  • The relative entropy is not a metric.
  • The Tsallis entropy is defined as
  • This residual entropy is often quite negligible.
  • In quantum information theory, the joint entropy is generalized into the joint quantum entropy
  • The configurational entropy is related to the number of possible configur
  • In general, configurational entropy is the foundation of statistical thermodynami
  • The term Boltzmann entropy is also sometimes used to indicate entropies
  • The von Neumann entropy is also strongly subadditive.
  • Loop entropy is the entropy lost upon bringing together tw
  • Conformational entropy is the entropy associated with the physical a
  • In chemistry, the standard molar entropy is the entropy content of one mole of substan
  • Residual entropy is small amount of entropy which is present e
  • al, term k is zero, and therefore the Tsallis entropy is in closed-form.
  • Joint entropy is a measure of the uncertainty associated wi
  • The principle of maximum entropy is useful explicitly only when applied to tes
  • In statistical mechanics, configuration entropy is the portion of a system's entropy that is
  • When the chain is stretched, the entropy is reduced by a large margin because there ar
  • , because Q is not a state function while the entropy is.
  • y is always less than or equal to the Shannon entropy; it is equal when all the probabilities pi ar
  • ot an expanding universe can approach maximal entropy; it has been proposed that in an expanding un
  • rona later resurfaces as the manifestation of Entropy itself and battles the New Guardians.
  • tropic or particle isentropic flow, where the entropy level of each fluid particle does not change
  • As an example, consider the entropy lost upon making the contacts between residue
  • In machine learning, a maximum entropy Markov model (MEMM), or conditional Markov mo
  • The loop entropy may also vary with the position of the contac
  • The coherent information is an entropy measure used in quantum information theory.
  • perature to the increase in the dimensionless entropy measured in bits.
  • The maximum entropy method applied to spectral density estimation
  • vation of the partition function with maximum entropy methods.
  • Other programs include: Entropy, Mixmaster, GPG, NEWSPOST, plus Plugins for m
  • ting the known information allows the maximum entropy model to derive a better estimate of the cent
  • It is simply the application of maximum entropy modeling to any type of spectrum and is used
  • In maximum entropy modeling probability distributions are create
  • ches a low-density state, it recontracts, but entropy now decreases, pointing the thermodynamic arr
  • For ε > 0, denote by N(T, dX; ε) the entropy number, i.e. the minimal number of (open) dX-
  • tes corresponding to a horizon of area A, the entropy of black holes is seen to be equal
  • fficient Reason, and the Principle of Maximum Entropy of E.T. Jaynes.
  • The joint entropy of a set of variables is greater than or equa
  • The joint entropy of a set of variables is less than or equal t
  • index of 1 indicates that the distributional entropy of the system under investigation is almost s
  • The entropy of a pure crystalline structure can be 0 J mo
  • gation of hydrocarbons, negative enthalpy and entropy of dissolution of gases, etc.
  • density function f : Rn → R, the information entropy of X, denoted h(X), is defined to be
  • means that the fractional perturbation in the entropy of each species of particle is equal.
  • Thus in situations such as in the entropy of mixing when the two or more different subs
  • third law of thermodynamics which states, the entropy of a system at absolute zero is a well-define
  • kur-Tetrode equation is an expression for the entropy of a monatomic classical ideal gas which inco
  • the Tsallis entropy of this system satisfies
  • Estimating the differential entropy of a system or process, given some observatio
  • I(X;A) of X and A - i.e. the reduction in the entropy of X achieved by learning the state of the ra
  • The entropy of fusion is the increase in entropy when mel
  • The entropy of vaporization is the increase in entropy wh
  • The relative entropy of entanglement of ρ is defined by
  • with Strominger, that the Bekenstein-Hawking entropy of a black hole can be accounted for by solit
  • The topological entropy of the map f is defined by
  • Adding the entropy of transition from α-AgI to β-AgI to the entr
  • Put in words, the information entropy of a distribution P is less than or equal to
  • n theorized as being responsible for the high entropy of black holes; while the likelihood of any g
  • The measure of this disorder is called the entropy of the system.
  • The information entropy of a random event is the expected value of it
  • Sinai demonstrated that the Kolmogorov entropy of a Bernoulli scheme is given by
  • riments, it is quite difficult to measure the entropy of a system.
  • The entropy of the interior region is bounded by the surf
  • quantum statistical mechanical origin of the entropy of a black hole and the entropy of a cosmolog
  • ster conformal field theory, and computed the entropy of BTZ black holes.
  • where H(X) is entropy of X and I(X,Y) is mutual information between
  • s article for the constraints placed upon the entropy of an ideal gas by thermodynamics alone.
  • It is driven by the entropy of the overall reaction, as the byproducts Me
  • The entropy of fusion (melting) for α-AgI is approximatel
  • s approximation, is to start with the Shannon entropy or compositional uncertainty
  • mical invariants as correlation dimension, K2 entropy or mutual information, which are independent
  • they may be able to "flush" all the existing entropy out of the system and put it into a known sta
  • emperature and approaching a state of maximal entropy over a very long time period.
  • Moving mirrors create entropy, particles, energy and gravitational-like eff
  • In mathematics, the entropy power inequality is a result in probability t
  • It shows that the entropy power of suitably well-behaved random variabl
  • and the entropy power of X, denoted N(X), is defined to be
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