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200 10$aHistory as a Science and the System of the Sciences $ePhenomenological Investigations /$fby Thomas M. Seebohm
205   $a1st ed. 2015.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2015.
215   $a1 online resource (449 p.)
225 1 $aContributions to Phenomenology, In Cooperation with The Center for Advanced Research in Phenomenology,$x2215-1915 ;$v77
300   $aDescription based upon print version of record.
311 08$a3-319-13586-4 
320   $aIncludes bibliographical references and index.
327   $aChapter 1. Introduction -- Part I. Phenomenological Preliminaries -- Chapter 2. The Formal Methodological Presuppositions of a Phenomenological Epistemology -- Chapter 3. Material Presuppositions of a Phenomenological Epistemology in the Structures of the Lifeworld -- Chapter 4. The Lifeworld and the System of the Sciences: First Steps toward a Phenomenological Epistemology -- Part II. The Methodology of the Historical Human Sciences -- Chapter 5. History as a Science of Interpretation -- Chapter 6. Causal Explanations in History -- Part III. The Methodology of the Natural Sciences -- Chapter 7. The Empirical Basis and the Thematic Attitude of the Natural Sciences -- Chapter 8. The Structure of Theories in the Natural Sciences -- Part IV. The Natural Sciences, the Historical Human Sciences and the Systematic Human Sciences -- Chapter 9. History and the Natural sciences -- Chapter 10. History and the Systematic Human Sciences -- Part V. Summary and Conclusion -- Index.
330   $aThis volume goes beyond presently available phenomenological analyses based on the structures and constitution of the lifeworld. It shows how the science of history is the mediator between the human and the natural sciences. It demonstrates that the distinction between interpretation and explanation does not imply a strict separation of the natural and the human sciences. Finally, it shows that the natural sciences and technology are inseparable, but that technology is one-sidedly founded in pre-scientific encounters with reality in the lifeworld. In positivism the natural sciences are sciences because they offer causal explanations testable in experiments and the humanities are human sciences only if they use methods of the natural sciences. For epistemologists following Dilthey, the human sciences presuppose interpretation and the human and natural sciences must be separated. There is phenomenology interested in psychology and the social sciences that distinguish the natural and the human sciences, but little can be found about the historical human sciences. This volume fills the gap by presenting analyses of the material foundations of the "understanding" of expressions of other persons, and of primordial recollections and expectations founding explicit expectations and predictions in the lifeworld. Next, it shows, on the basis of history as applying philological methods in interpretations of sources, the role of a universal spatio-temporal framework for reconstructions and causal explanations of "what has really happened".
410  0$aContributions to Phenomenology, In Cooperation with The Center for Advanced Research in Phenomenology,$x2215-1915 ;$v77
606   $aPhenomenology
606   $aKnowledge, Theory of
606   $aScience$xPhilosophy
606   $aPhenomenology
606   $aEpistemology
606   $aPhilosophy of Science
615  0$aPhenomenology.
615  0$aKnowledge, Theory of.
615  0$aScience$xPhilosophy.
615 14$aPhenomenology.
615 24$aEpistemology.
615 24$aPhilosophy of Science.
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676   $a120
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aAdvances in Architectural Acoustics
210   $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 online resource (356 p.)
311 08$a3-0365-4295-7 
311 08$a3-0365-4296-5 
330   $aSatisfactory acoustics is crucial for the ability of spaces such as auditoriums and lecture rooms to perform their primary function. The acoustics of dwellings and offices greatly affects the quality of our life, since we are all consciously or subconsciously aware of the sounds to which we are daily subjected. Architectural acoustics, which encompasses room and building acoustics, is the scientific field that deals with these topics and can be defined as the study of generation, propagation, and effects of sound in enclosures. Modeling techniques, as well as related acoustic theories for accurately calculating the sound field, have been the center of many major new developments. In addition, the image conveyed by a purely physical description of sound would be incomplete without regarding human perception; hence, the interrelation between objective stimuli and subjective sensations is a field of important investigations. A holistic approach in terms of research and practice is the optimum way for solving the perplexing problems which arise in the design or refurbishment of spaces, since current trends in contemporary architecture, such as transparency, openness, and preference for bare sound-reflecting surfaces are continuing pushing the very limits of functional acoustics. All the advances in architectural acoustics gathered in this Special Issue, we hope that inspire researchers and acousticians to explore new directions in this age of scientific convergence.
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606   $aResearch and information: general$2bicssc
610   $aabsorption
610   $aacoustic heritage
610   $aacoustic measurements
610   $aacoustic parameters
610   $aacoustic subspaces
610   $aacoustical parameters
610   $aacoustics
610   $aacoustics simulation
610   $aairflow resistivity
610   $aarchaeo-acoustics
610   $aauralization
610   $abuilding acoustics
610   $acalculation models
610   $acoherent image source method
610   $aconcert hall acoustics
610   $adiffusers location
610   $adiffusive surfaces
610   $adirectional decay rates
610   $adiscretization error
610   $adodecahedron
610   $aeigenbeam processing
610   $aexplicit method
610   $aFDTD simulation
610   $afinite element method
610   $afirecrackers
610   $afrequency domain
610   $ahigh order scheme
610   $aimpulse response measurements
610   $aintangible cultural heritage
610   $aISO 3382
610   $aISO 3382-1
610   $aISO 3382-3
610   $alateral reflections
610   $along space
610   $amechanism
610   $amicro-perforated panels
610   $an/a
610   $aoffice noise
610   $aomnidirectional source
610   $aopen-air ancient theatres
610   $aopen-plan offices
610   $aopera house
610   $aperception thresholds
610   $aperforated panels
610   $aprediction models
610   $aPUFEM
610   $areflection power
610   $areflection sequence
610   $aresonant absorbers
610   $areverberation time
610   $aroom absorption
610   $aroom acoustic simulations
610   $aroom acoustics
610   $aroom modes
610   $aroom response
610   $ascale-model experiment
610   $ascattering
610   $aseat dip effect
610   $aseat height
610   $aseat spacing
610   $ashoebox concert hall
610   $ashoebox typology
610   $askeletal reflections
610   $asound absorption
610   $asound absorption coefficient
610   $asound field modeling
610   $asound source
610   $asound-absorbing boundary
610   $aspatial correlation
610   $aspatial decay
610   $aspatial impression
610   $aspeech
610   $aspeech intelligibility
610   $asubjective investigation
610   $asupervised learning method
610   $atime domain
610   $avariable acoustics
610   $awave-based method
610   $aworship space acoustics
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615  7$aResearch and information: general
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