909 resultados para chaos
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Surveying the political and economic problems that plague Ukraine today, Michael Emerson warns in this commentary that unless strong and sound fresh governance structures are immediately put into place, the political dynamics will lead to catastrophic radicalisation, chaos and conflict. He calls upon the EU, elected by the Ukrainian street as honorary sponsor of the EuroMaidan, to prepare for this contingency now, observing that emergency situations require emergency measures.
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Throughout the history of Russia, periods of deep chaos have been accompanied by demographic crises. This was the case during the Time of Troubles, or Smutnoye Vremya, in the seventeenth century, and during the period of wars and revolutions in the early twentieth century, which brought the Bolsheviks to power. Similarly, the break-up of the USSR also coincided with a demographic crisis. However, while the previous crises had been caused by factors such as war, famine, epidemics or repressive policies, and were followed by periods of rapid population growth once these factors had ceased to operate, the current crisis is systemic and structural. To a large extent, it has been occasioned by cultural factors such as changing family models and the roles of women in today's society. In Russia, the effect of these factors on population increase is exacerbated by excessive alcohol consumption, an culture of inadequate working conditions which leads to many accidents at work, and healthcare deficiencies (only c. 3% of the GDP is spent on healthcare annually).
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Against a backdrop of chaos and violence in the EU’s neighbourhood, Steven Blockmans acknowledges that the troubles of 2014 will cast a long, dark shadow over 2015. In this new CEPS Commentary the author attempts to predict some of the EU foreign policy developments that are likely to mark the New Year.
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Martin Wolf offers an excellent analysis of how the Greek voter may feel about Sunday’s referendum.1 There is no good option: either be engulfed in the chaos following the rejection of the programme, exit and collapse of the economy or accept another programme.
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More than three years after al-Gaddafi was overthrown, Libya has still not returned to some semblance of normality. In many places, the Libyan state exists only on paper. No less than two governments and dozens of rival tribes, all with their own militias and armed to the teeth, are trying to come to power. In the midst of this chaos “IS,” the terrorist organization, has now entered the fray. Evidence of this is provided by the brutal murder of 21 Egyptian Copts, which could trigger off a civil war that will pose a threat to the entire region and to Europe. Mirco Keilberth, an expert on Libya, explains what is going on.
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From the Introduction. Arab revolutions have sparked real hopes for democracy, but the situation varies from one state to another and change has taken various directions, with unpredictable outcomes in the future. In light of current events, most of these countries seem to have failed in their democratic transition and also face the dissolution of their state apparatus in bloody civil wars. This leaves the door open to interpretations associating democracy with chaos. In this view, preserving post-colonial states – authoritarian in most cases – is better than having no state at all. This partially justified the coup that took place in Egypt, where the ‘Deep State’ has recovered its capabilities in a dictatorial manner. The Arab world thus faced an impasse: the state is either stable but authoritarian or democratic yet threatened with dissolution. The dilemma results in an impossible choice between stable dictatorship or freedom ending in chaos.
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A collection of miscellaneous pamphlets on religion.
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The background.--Economic chaos.--Reconstruction.
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Thesis (Master's)--University of Washington, 2016-06
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Thesis (Ph.D.)--University of Washington, 2016-06
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Cold atoms in optical potentials provide an ideal test bed to explore quantum nonlinear dynamics. Atoms are prepared in a magneto-optic trap or as a dilute Bose-Einstein condensate and subjected to a far detuned optical standing wave that is modulated. They exhibit a wide range of dynamics, some of which can be explained by classical theory while other aspects show the underlying quantum nature of the system. The atoms have a mixed phase space containing regions of regular motion which appear as distinct peaks in the atomic momentum distribution embedded in a sea of chaos. The action of the atoms is of the order of Planck's constant, making quantum effects significant. This tutorial presents a detailed description of experiments measuring the evolution of atoms in time-dependent optical potentials. Experimental methods are developed providing means for the observation and selective loading of regions of regular motion. The dependence of the atomic dynamics on the system parameters is explored and distinct changes in the atomic momentum distribution are observed which are explained by the applicable quantum and classical theory. The observation of a bifurcation sequence is reported and explained using classical perturbation theory. Experimental methods for the accurate control of the momentum of an ensemble of atoms are developed. They use phase space resonances and chaotic transients providing novel ensemble atomic beamsplitters. The divergence between quantum and classical nonlinear dynamics is manifest in the experimental observation of dynamical tunnelling. It involves no potential barrier. However a constant of motion other than energy still forbids classically this quantum allowed motion. Atoms coherently tunnel back and forth between their initial state of oscillatory motion and the state 180 out of phase with the initial state.
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The desire to know the future is as old as humanity. For the tourism industry the demand for accurate foretelling of the future course of events is a task that consumes considerable energy and is of great significance to investors. This paper examines the issue of forecasting by comparing forecasts of inbound tourism made prior to the political and economic crises that engulfed Indonesia from 1997 onwards with actual arrival figures. The paper finds that current methods of forecasting are not able to cope with unexpected crises and other disasters and that alternative methods need to be examined including scenarios, political risk and application of chaos theory. The paper outlines a framework for classifying shocks according to a scale of severity, probability, type of event, level of certainty and suggested forecasting tools for each scale of shock. (C) 2003 Elsevier Science Ltd. All rights reserved.
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The multibody dynamics of a satellite in circular orbit, modeled as a central body with two hinge-connected deployable solar panel arrays, is investigated. Typically, the solar panel arrays are deployed in orbit using preloaded torsional springs at the hinges in a near symmetrical accordion manner, to minimize the shock loads at the hinges. There are five degrees of freedom of the interconnected rigid bodies, composed of coupled attitude motions (pitch, yaw and roll) of the central body plus relative rotations of the solar panel arrays. The dynamical equations of motion of the satellite system are derived using Kane's equations. These are then used to investigate the dynamic behavior of the system during solar panel deployment via the 7-8th-order Runge-Kutta integration algorithms and results are compared with approximate analytical solutions. Chaotic attitude motions of the completely deployed satellite in circular orbit under the influence of the gravity-gradient torques are subsequently investigated analytically using Melnikov's method and confirmed via numerical integration. The Hamiltonian equations in terms of Deprit's variables are used to facilitate the analysis. (C) 2003 Published by Elsevier Ltd.
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How does the classical phase-space structure for a composite system relate to the entanglement characteristics of the corresponding quantum system? We demonstrate how the entanglement in nonlinear bipartite systems can be associated with a fixed-point bifurcation in the classical dynamics. Using the example of coupled giant spins we show that when a fixed point undergoes a supercritical pitchfork bifurcation, the corresponding quantum state-the ground state-achieves its maximum amount of entanglement near the critical point. We conjecture that this will be a generic feature of systems whose classical limit exhibits such a bifurcation.
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Melnikov's method is used to analytically predict the onset of chaotic instability in a rotating body with internal energy dissipation. The model has been found to exhibit chaotic instability when a harmonic disturbance torque is applied to the system for a range of forcing amplitude and frequency. Such a model may be considered to be representative of the dynamical behavior of a number of physical systems such as a spinning spacecraft. In spacecraft, disturbance torques may arise under malfunction of the control system, from an unbalanced rotor, from vibrations in appendages or from orbital variations. Chaotic instabilities arising from such disturbances could introduce uncertainties and irregularities into the motion of the multibody system and consequently could have disastrous effects on its intended operation. A comprehensive stability analysis is performed and regions of nonlinear behavior are identified. Subsequently, the closed form analytical solution for the unperturbed system is obtained in order to identify homoclinic orbits. Melnikov's method is then applied on the system once transformed into Hamiltonian form. The resulting analytical criterion for the onset of chaotic instability is obtained in terms of critical system parameters. The sufficient criterion is shown to be a useful predictor of the phenomenon via comparisons with numerical results. Finally, for the purposes of providing a complete, self-contained investigation of this fundamental system, the control of chaotic instability is demonstated using Lyapunov's method.
