03860nam 2200661 a 450 991078136730332120200520144314.01-281-60501-897866137857010-231-51963-X10.7312/thom14778(CKB)2550000000032581(EBL)949012(OCoLC)818858125(SSID)ssj0000535710(PQKBManifestationID)12216229(PQKBTitleCode)TC0000535710(PQKBWorkID)10523778(PQKB)10421938(StDuBDS)EDZ0000454901(MiAaPQ)EBC949012(DE-B1597)459387(OCoLC)726828793(OCoLC)979832059(DE-B1597)9780231519632(Au-PeEL)EBL949012(CaPaEBR)ebr10463098(EXLCZ)99255000000003258120101013d2011 uy 0engur|n|---|||||txtccrThe death of philosophy[electronic resource] reference and self-reference in contemporary thought /Isabelle Thomas-Fogiel ; translated by Richard A. LynchNew York Columbia University Pressc20111 online resource (359 p.)Description based upon print version of record.0-231-14778-3 Includes bibliographical references.pt. 1. The end of philosophy, or the paradoxes of speaking -- pt. 2. Challenging the "death of philosophy" : the reflexive a priori -- pt. 3. The end of philosophy in perspective : the source of the reflexive deficit.Philosophers debate the death of philosophy as much as they debate the death of God. Kant claimed responsibility for both philosophy's beginning and end, while Heidegger argued it concluded with Nietzsche. In the twentieth century, figures as diverse as John Austin and Richard Rorty have proclaimed philosophy's end, with some even calling for the advent of "postphilosophy." In an effort to make sense of these conflicting positions—which often say as much about the philosopher as his subject—Isabelle Thomas-Fogiel undertakes the first systematic treatment of "the end of philosophy," while also recasting the history of western thought itself.Thomas-Fogiel begins with postphilosophical claims such as scientism, which she reveals to be self-refuting, for they subsume philosophy into the branches of the natural sciences. She discovers similar issues in Rorty's skepticism and strands of continental thought. Revisiting the work of late-nineteenth and early-twentieth-century philosophers, when the split between analytical and continental philosophy began, Thomas-Fogiel finds both traditions followed the same path—the road of reference—which ultimately led to self-contradiction. This phenomenon, whether valorized or condemned, has been understood as the death of philosophy. Tracing this pattern from Quine to Rorty, from Heidegger to Levinas and Habermas, Thomas-Fogiel reveals the self-contradiction at the core of their claims while also carving an alternative path through self-reference. Trained under the French philosopher Bernard Bourgeois, she remakes philosophy in exciting new ways for the twenty-first century.Philosophy, French21st centuryPhilosophy, Modern21st centuryReference (Philosophy)Philosophy, FrenchPhilosophy, ModernReference (Philosophy)190.9/051Thomas-Fogiel Isabelle148463Lynch Richard A1164532MiAaPQMiAaPQMiAaPQBOOK9910781367303321The death of philosophy3835559UNINA05328nam 2200697Ia 450 991101999120332120200520144314.097866123715549781282371552128237155X9780470824023047082402697804708240160470824018(CKB)1000000000790113(EBL)456040(SSID)ssj0000112239(PQKBManifestationID)11127898(PQKBTitleCode)TC0000112239(PQKBWorkID)10103899(PQKB)10962841(MiAaPQ)EBC456040(OCoLC)441886999(Perlego)2752619(EXLCZ)99100000000079011320081024d2009 uy 0engur|n|---|||||txtccrBiophysical bone behavior principles and applications /Jitendra BehariSingapore ;Hoboken, NJ John Wileyc20091 online resource (501 p.)Description based upon print version of record.9780470824009 047082400X Includes bibliographical references and index.BIOPHYSICAL BONE BEHAVIOR: PRINCIPLES AND APPLICATIONS; Contents; Preface; Acknowledgements; About the Book; 1 Elements of Bone Biophysics; 1.1 Introduction; 1.2 Structural Aspect of Bone; 1.2.1 Elementary Constituents of Bone; 1.2.2 The Fibers; 1.2.3 Collagen Synthesis; 1.2.4 Bone Matrix (Inorganic Component); 1.3 Classification of Bone Tissues; 1.3.1 Compact Bone; 1.3.2 Fine Cancellous Bone; 1.3.3 Coarse Cancellous Bone; 1.4 Lamellation; 1.4.1 The Cement; 1.5 Role of Bone Water; 1.6 Bone Metabolism; 1.6.1 Ca and P Metabolism; 1.7 Osteoporosis; 1.8 Bone Cells; 1.8.1 Osteoblasts1.8.2 Osteoblast Differentiation1.8.3 Osteoclast; 1.8.4 Osteoclast Differentiation; 1.8.5 The Osteocytes; 1.8.6 Mathematical Formulation; 1.9 Bone Remodeling; 1.10 Biochemical Markers of Bone and Collagen; 1.11 Summary; 2 Piezoelectricity in Bone; 2.1 Introduction; 2.2 Piezoelectric Effect; 2.2.1 Properties Relating to Piezoelectricity; 2.3 Physical Concept of Piezoelectricity; 2.3.1 Piezoelectric Theory; 2.4 Sound Propagated in a Piezoelectric Medium; 2.5 Equivalent Single-Crystal Structure of Bone; 2.6 Piezoelectric Properties of Dry Compact Bones2.6.1 Piezoelectric Properties of Dry and Wet Collagens2.6.2 Measurement of Piezoelectricity in Bone; 2.7 Bone Structure and Piezoelectric Properties; 2.8 Piezoelectric Transducers; 2.8.1 Transducer Vibration; 2.8.2 Transverse-Effect Transducer; 2.9 Ferroelectricity in Bone; 2.9.1 Experimental Details; 2.10 Two-Phase Mineral-Filled Plastic Composites; 2.10.1 Material Properties; 2.10.2 Bone Mechanical Properties; 2.11 Mechanical Properties of Cancellous Bone: Microscopic View; 2.12 Ultrasound and Bone Behavior; 2.12.1 Biochemical Coupling; 2.13 Traveling Wave Characteristics2.14 Viscoelasticity in Bone2.15 Discussion; 3 Bioelectric Phenomena in Bone; 3.1 Macroscopic Stress-Generated Potentials of Moist Bone; 3.2 Mechanism of Biopotential Generation; 3.3 Stress-Generated Potentials (SGPs) in Bone; 3.4 Streaming Potentials and Currents of Normal Cortical Bone: Macroscopic Approach; 3.4.1 Streaming Potential and Current Dependence on Bone Structure and Composition: Macroscopic View; 3.5 Microscopic Potentials and Models of SP Generation in Bone; 3.6 Stress-Generated Fields of Trabecular Bone; 3.7 Biopotential and Electrostimulation in Bone3.7.1 Electrode Implantation3.7.2 Control Data; 3.7.3 Pulsating Fields; 3.7.4 DC Stimulation; 3.7.5 Electromagnetic Field (50 Hz) Stimulation Along with Radio Frequency Field Coupling; 3.7.6 Continuous Fields; 3.7.7 Impedance Measurements; 3.8 Origin of Various Bioelectric Potentials in Bone; 4 Solid State Bone Behavior; 4.1 Introduction; 4.2 Electrical Conduction in Bone; 4.2.1 Bone as a Semiconductor; 4.2.2 Bone Dielectric Properties; 4.3 Microwave Conductivity in Bone; 4.4 Electret Phenomena; 4.4.1 Thermo Electret; 4.4.2 Electro Electret; 4.4.3 Magneto Electret; 4.5 Hall Effect in Bone4.5.1 Hall Effect, Hall Mobility and Drift MobilityBiophysical Bone Behaviour: Principles and Applications is the culmination of efforts to relate the biophysical phenomena in bone to bone growth and electrical behavior. Behari develops a bridge between physics and biology of bone leading to its clinical applications, primarily electro stimulations in fracture healing and osteoporosis. The book is based upon authors own research work and his review articles in the area, and updated with the latest research results. The first book dedicated to biophysical bone behaviorDevelops the relationship between the biophysics and bioloBonesBiophysicsBonesPathophysiologyBones.Biophysics.BonesPathophysiology.612.7/5612.75Behari Jitendra1837860MiAaPQMiAaPQMiAaPQBOOK9911019991203321Biophysical bone behavior4416697UNINA