00862nam0-2200313---450-99000950814040332120120110123742.0978-88-348-1886-2000950814FED01000950814(Aleph)000950814FED0100095081420120110d2011----km-y0itay50------baitaITy-------001yyPercorsi di diritto societario europeoa cura di Elisabetta Pederzini2. edTorinoGiappichelli2011XI, 313 p.24 cm346.406619itaPederzini,ElisabettaITUNINARICAUNIMARCBK99000950814040332113 CD 59315008DDCPDDCPPercorsi di Diritto Societario Europeo712088UNINA01157nam a2200301 i 450099100350778970753620020509123422.0000220s1989 it ||| | ita 8878029734b1117271x-39ule_instPARLA183318ExLDip.to Filosofiaita616.8Charcot, Jean Martin188141Lezioni alla Salpêtrière /Jean-Martin Charcot ; a cura di Alfredo CivitaMilano :Guerini,1989220 p. :ill. ;23 cm.Saggi [Guerini] ;14Trad. dal francese di Federica Mariani, A. CivitaMalattie del sistema nervosoCivita, Alfredo.b1117271x23-02-1728-06-02991003507789707536LE005IF XXX H 5612005000111143le005-E0.00-l- 02020.i1131870328-06-02LE022 616 CHA01.0112022000001243le022-E0.00-l- 00000.i1131871528-06-02Lezioni alla Salpêtrière557656UNISALENTOle005le02201-01-00ma -itait 0205714nam 2200721 450 99620349480331620200520144314.01-118-92593-91-118-92590-41-118-92591-2(CKB)2670000000569500(EBL)1791965(OCoLC)891448019(SSID)ssj0001348485(PQKBManifestationID)11888036(PQKBTitleCode)TC0001348485(PQKBWorkID)11396395(PQKB)10352968(MiAaPQ)EBC1791965(DLC) 2014030067(Au-PeEL)EBL1791965(CaPaEBR)ebr10943656(CaONFJC)MIL647928(EXLCZ)99267000000056950020141010h20142014 uy 0engur|n|---|||||txtrdacontentcrdamediacrWave propagation in drilling, well logging, and reservoir applications /Wilson C. Chin ; Kris Hackerott, cover designHoboken, New Jersey :Scrivener Publishing,2014.©20141 online resource (458 p.)Advances in Petroleum EngineeringDescription based upon print version of record.1-118-92589-0 1-322-16671-4 Includes bibliographical references at the end of each chapters and index.Cover; Title Page; Copyright Page; Contents; Preface; Acknowledgements; 1 Overview and Fundamental Ideas; 1.1 The Classical Wave Equation; 1.1.1 Fundamental properties; 1.1.2 Reflection properties; 1.1.2.1 Example 1-1. Rigid end termination; 1.1.2.2 Example 1-2. Stress-free end; 1.1.2.3 Note on acoustics; 1.2 Fundamental Representation; 1.2.1 Taylor series; 1.2.2 Fourier series; 1.3 Separation of Variables and Eigenfunction Expansions; 1.3.1 Example 1-3. String with pinned ends and general initial conditions; 1.3.2 Example 1-4. String with distributed forces1.3.3 Example 1-5. Alternative boundary conditions1.3.4 Example 1-6. Mixed boundary conditions; 1.3.5 Example 1-7. Problems without initial conditions; 1.3.5.1 Example 1-7a. Naive approach; 1.3.5.2 Example 1-7b. Correct approach; 1.3.5.3 Example 1-7c. Faster approach; 1.3.6 Example 1-8. Dissipative wave solution; 1.4 Standing Versus Propagating Waves; 1.4.1 Standing waves; 1.4.2 Propagating waves; 1.4.3 Combined standing and propagating waves; 1.4.4 Characterizing propagating waves; 1.5 Laplace Transforms; 1.5.1 Wave equation derivation; 1.5.2 Example 1-9. String falling under its own weight1.5.3 Example 1-10. Semi-infinite string with a general end support1.5.3.1 Example 1-10a. Rectangular pulse; 1.5.3.2 Example 1-10b. Impulse response; 1.5.3.3 Example 1-10c. Incident sinusoidal wavetrain; 1.6 Fourier Transforms; 1.6.1 Example 1-11. Propagation of an initially static disturbance; 1.6.2 Example 1-12. Directional properties, special wave; 1.7 External Forces Versus Boundary Conditions; 1.7.1 Single point force; 1.7.2 Properties of point loads; 1.7.2.1 Example 1-13. Boundary conditions versus forces; 1.7.2.2 Couples or dipoles; 1.7.2.3 Multiple forces and higher order moments1.7.2.4 Symmetries and anti-symmetries1.7.2.5 Impulse response; 1.7.2.6 On the subtle meaning of impulse; 1.7.2.7 Example 1-14. Incorrect use of impulse response; 1.7.2.8 Additional models; 1.7.2.9 Other delta function properties; 1.8 Point Force and Dipole Wave Excitation; 1.8.1 Example 1-15. Finite string excited by a time-varying concentrated point force; 1.8.2 Example 1-16. Finite string excited by a time-varying point dipole (i.e., a force couple); 1.8.3 Example 1-17. Splitting of an applied initial disturbance; 1.9 First-Order Partial Differential Equations; 1.10 References2 Kinematic Wave Theory2.1 Whitham's Theory in Nondissipative Media; 2.1.1 Uniform media; 2.1.2 Example 2-1. Transverse beam vibrations; 2.1.3 Example 2-2. Simple longitudinal oscillations; 2.1.4 Example 2-3. Asymptotic stationary phase expansion; 2.1.5 Simple consequences of KWT; 2.1.6 Nonuniform media; 2.1.7 Example 2-4. Numerical integration; 2.1.8 Ease of use is important to practical engineering; 2.2 Simple Attenuation Modeling; 2.2.1 The Q-model; 2.2.2 Relating Q to amplitude in space; 2.2.3 Relating Q to standing wave decay; 2.2.4 Kinematic wave generalization2.3 KWT in Homogeneous Dissipative MediaWave propagation is central to all areas of petroleum engineering, e.g., drilling vibrations, MWD mud pulse telemetry, swab-surge, geophysical ray tracing, ocean and current interactions, electromagnetic wave and sonic applications in the borehole, but rarely treated rigorously or described in truly scientific terms, even for a single discipline. Wilson Chin, an MIT and Caltech educated scientist who has consulted internationally, provides an integrated, comprehensive, yet readable exposition covering all of the cited topics, offering insights, algorithms and validated methods never before puAdvances in Petroleum EngineeringGeophysical well loggingSeismic reflection methodWave-motion, Theory ofGeophysical well logging.Seismic reflection method.Wave-motion, Theory of.622/.1828Chin Wilson C.860858Hackerott KrisMiAaPQMiAaPQMiAaPQBOOK996203494803316Wave propagation in drilling, well logging, and reservoir applications1921027UNISA01393nam0 22002891i 450 UON0002012820231205102015.20220020107d1978 |0itac50 baengUS||||b |||||Ancient PersiaThe Art of an EmpireFebruary 12 - April 16, 1978 University Art Museum The University of Texas at Austin ; May 6 - June 17, 1978 The Walters Art Gallery Baltimore, Marylandby Denise Schmandt-Besseratwith contributions from S.M. Alexander ... [et al.]AustinUniversity of Texas1978117 p.ill.23 cmArteIranPeriodo AchemenideUONC003891FIUSAustinUONL000438IR IX LIRAN ANTICO - ARTI - ESPOSIZIONI CATALOGHI VENDITEASCHMANDT-BESSERATDeniseUONV002693University of TexasUONV249000650ITSOL20250530RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00020128SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI IR IX L 004 SI SA 32100 7 004 ARTE ACHEMENIDEArte - Iran - Periodo AchemenideUONC005973ICONOGRAFIA ACHEMENIDEArte - Iran - Periodo AchemenideUONC006277Ancient Persia1174746UNIOR