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200 10$aNature's teleological order and God's providence $eare they compatible with chance, free will, and evil? /$fby Paul Weingartner
210  1$aBoston :$cDe Gruyter,$d[2015]
210  4$dİ2015
215   $a1 online resource (338 p.)
225 1 $aPhilosophische analyse / philosophical analysis,$x2198-2066 ;$v61
300   $aDescription based upon print version of record.
311   $a1-61451-892-0 
311   $a1-61451-891-2 
320   $aIncludes bibliographical references and index.
327   $tFront matter --$tContents --$tPreface --$t1. Whether there can be providence at all? --$t2. Whether providence can be attributed to God? --$t3. Whether providence is concerned with creation? --$t4. Whether there is order in the change of things? --$t5. Whether there is teleological order in non-living things? --$t6. Whether there is chance and randomness in non-living things? --$t7. Whether there is teleological order in living things? --$t8. Whether there is chance and randomness in living things? --$t9. Whether providence is compatible with both order and chance? --$t10. Whether everything that happens comes under God's providence --$t11. Whether everything that comes under God's providence is known by God --$t12. Whether everything that comes under God's providence is willed or permitted by God --$t13. Whether everything that comes under God's providence is caused by God or by creatures --$t14. Whether everything that comes under God's providence is directed to some goal or integrated into a network of goals --$t15. Whether nature's order and God's providence are compatible with free will --$t16. Whether God's providence is compatible with evil --$tBibliography --$tList of definitions --$tList of theorems --$tList of names --$tList of subjects
330   $aThe book defends that there is both teleological order (design) and chance in non-living and in living systems of nature including man. This is done by giving exact definitions of different types of order and teleological order on the one hand and of different types of chance on the other. For their compatibility it is important to notice that any definition of chance presupposes some kind of order relative to that we can speak of chance. Thus also in evolution which is some growth of some order and for which a detailed definition is given in chpt.13 chance and degrees of freedom play an essential role. A further purpose of the book is to show that both the existing order and the existing chance in nature are compatible with a global teleological plan which is God's providence. However concerning the execution of God's plan not everything is done or caused by himself but "God created things in such a way that they themselves can create something" (Gödel, MAX PHIL). A reason for that is that God is neither all-causing nor all-willing although he is almighty. This is connected with the result of chpts.15 and 16 that also human freedom and evil are compatible with God's providence.
410  0$aPhilosophische Analyse ;$vBd. 61.
606   $aTeleology
606   $aProvidence and government of God
606   $aFree will and determinism
606   $aChance
606   $aGood and evil
608   $aElectronic books.
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615  0$aProvidence and government of God.
615  0$aFree will and determinism.
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615  0$aGood and evil.
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300   $aOpera realizzata su iniziativa di Eugenio Malgeri Zeri con la collaborazione di Fondazione Federico Zeri e Fondazione di Studi di storia dell'arte Roberto Longhi
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200 10$aFree-space optics$b[electronic resource] $epropagation and communication /$fOlivier Bouchet ... [et al.]
210   $aLondon ;$aNewport Beach, CA $cISTE$d2006
215   $a1 online resource (221 p.)
225 1 $aISTE ;$vv.91
300   $aFirst published in France in 2004 by Hermes Science/Lavoisier entitled "Optique sans fil: propagation et communication."
311   $a1-905209-02-9 
320   $aIncludes bibliographical references (p. [209]-215) and index.
327   $aFree-Space Optics; Table of Contents; Introduction; Chapter 1. History of Optical Telecommunications; 1.1. Some definitions; 1.1.1. Telecommunication; 1.1.2. Optical transmission; 1.1.3. Radio or Hertzian waves; 1.2. The prehistory of telecommunications; 1.3. The optical air telegraph; 1.4. The code; 1.5. The optical telegraph; 1.6. The heliograph or solar telegraph: a portable telecommunication system; 1.7. Alexander Graham Bell's photophone; Chapter 2. Basic Principles of Electromagnetism; 2.1. Introduction; 2.2. Maxwell's equations in an unspecified medium
327   $a2.3. Propagation of electromagnetic waves in an isotropic and linear homogeneous medium2.4. Energy associated with a wave; 2.5. Propagation of a wave in a non-homogeneous medium; 2.6. Coherent and incoherent waves; 2.7. Relations between classical electromagnetism and geometrical optics; 2.8. The electromagnetic spectrum; 2.9. Units and scales; 2.10. Examples of sources in the visible light and near visible light; 2.11. Conclusion; Chapter 3. Emission and Reception of Optical Beams; 3.1. Foreword; 3.2. Introduction; 3.3. Radiometry: basic concepts
327   $a3.4. Optical spectral windows, materials and eye-safety3.5. Transmitters; 3.5.1. Broad spectrum incoherent light emitting diodes; 3.5.1.1. Structures; 3.5.1.2. Near and far field patterns; 3.5.1.3. Spectral characteristics; 3.5.1.4. Electrical and optical characteristics; 3.5.2. Laser diodes: high radiant power output, coherent waves; 3.5.2.1. Structures; 3.5.2.2. "(?transmitted )/(Iinjected) characteristic": static and dynamic; 3.5.2.3. Spectra and near field patterns; 3.5.2.4. Spectral and modal instabilities and light intensity noise
327   $a3.5.3. Use of amplifiers with "rare earth ion" doped fibers3.6. Photodetectors; 3.6.1. Optical spectral range and materials; 3.6.2. Principle of operation and structures; 3.6.2.1. Surface phenomena: optical reflection, charge mobility and current leakage; 3.6.2.2. Absorption and conduction: semiconductor junctions; 3.6.3. Responsivity, response time, junction capacity and dark current; 3.6.4. Photomultipliers and semiconductor avalanche photodiodes; Chapter 4. Line of Sight Propagation; 4.1. Influence of the propagation environment; 4.1.1. Atmospheric absorption; 4.1.2. Atmospheric scattering
327   $a4.1.3. Extinction and total spectral transmission4.1.4. Earth's atmosphere; 4.1.4.1. Atmospheric composition; 4.1.4.2. Aerosols; 4.2. Visibility; 4.2.1. Generalities; 4.2.1.1. Definitions; 4.2.1.2. Units and scales; 4.2.1.3. Meteorology needs; 4.2.1.4. Measurement methods; 4.2.2. Visual estimate of the meteorological optical range; 4.2.2.1. General; 4.2.2.2. Estimate of the day time meteorological optical range; 4.2.2.3. Estimate of the night time meteorological optical range; 4.2.2.4. Estimate of the meteorological optical range in the absence of distant reference markers
327   $a4.2.3. Meteorological optical range measurement instruments
330   $aFree space optics is a telecommunications technique which is already being used for everyday exchange of information and has many advantages over other techniques (bandwidth, low cost, mobility of the equipment, security, etc.); within the next decade, it is likely to become an integral and essential part of data-processing architectures and telecommunications.A history of wireless optical telecommunications is given, together with a recapitulation of the application of the principles of electromagnetism to free-space optics. Coverage is also given to the transmitters and receivers of opti
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606   $aOptical communications
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615  0$aOptical communications.
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