01631nam0 2200325 i 450 SUN006160920151120101600.49890-676-4235-50.0020071017d1997 |0engc50 baengNL|||| |||||Nonclassical and inverse problems for pseudoparabolic equationsA. Asanov and E. R. AtamanovUtrechtVSP1997152 p.25 cm.001SUN00449272001 Inverse and ill-posed problems series210 UtrechtVSP.35-XXPartial differential equations [MSC 2020]MFSUNC01976335R30Inverse problems for PDEs [MSC 2020]MFSUNC02191835K70Ultraparabolic equations, pseudoparabolic equations, etc. [MSC 2020]MFSUNC02232435R20Operator partial differential equations (= PDEs on finite-dimensional spaces for abstract space valued functions) [MSC 2020]MFSUNC022325UtrechtSUNL000779Asanov, AvytSUNV048523725465Atamanov, E.R.SUNV048524725464VSPSUNV004865650ITSOL20201019RICA/sebina/repository/catalogazione/documenti/Asanov, Atamanov - Nonclassical and inverse problems for pseudoparabolic equations.pdfContentsSUN0061609UFFICIO DI BIBLIOTECA DEL DIPARTIMENTO DI MATEMATICA E FISICA08PREST 35-XX 0165 08 7889 I 20071017 Nonclassical and inverse problems for pseudoparabolic equations1415554UNICAMPANIA05119nam 2200697Ia 450 991045743560332120200520144314.01-280-63842-797866106384200-08-045766-5(CKB)1000000000357926(EBL)270087(OCoLC)476001374(SSID)ssj0000098684(PQKBManifestationID)11550168(PQKBTitleCode)TC0000098684(PQKBWorkID)10134629(PQKB)11025051(MiAaPQ)EBC270087(Au-PeEL)EBL270087(CaPaEBR)ebr10138479(CaONFJC)MIL63842(EXLCZ)99100000000035792620051207d2005 uy 0engurcn|||||||||txtccrAdvances in high-pressure technology for geophysical applications[electronic resource] /editors, Jiuhua Chen ... [et al.]1st ed.Amsterdam ;Boston Elsevierc20051 online resource (532 p.)Description based upon print version of record.0-444-51979-3 Includes bibliographical references and indexes.Front Cover; Advances in High-Pressure Technology for Geophysical Applications; Copyright Page; Contents; Contributors; Preface; Reviewers; Part I: Elastic and anelastic properties; Chapter 1. Direct measurements of the elastic properties of iron and cobalt to 120 GPa - implications for the composition of Earth's core; Chapter 2. A gigahertz ultrasonic interferometer for the diamond anvil cell and high-pressure elasticity of some iron-oxide mineralsChapter 3. Simultaneous equation of state, pressure calibration and sound velocity measurements to lower mantle pressures using multi-anvil apparatus Chapter 4. Simultaneous determination of elastic and structural properties under simulated mantle conditions using multi-anvil device MAX80; Chapter 5. Laboratory measurement of seismic wave dispersion and attenuation at high pressure and temperature; Part II: Rheology; Chapter 6. High-temperature plasticity measurements using synchrotron X-raysChapter 7. Stress and strain measurements of polycrystalline materials under controlled deformation at high pressure using monochromatic synchrotron radiation Chapter 8. Development of a rotational Drickamer apparatus for large-strain deformation experiments at deep Earth conditions; Part III: Melt and glass properties; Chapter 9. Density measurements of molten materials at high pressure using synchrotron X-ray radiography: melting volume of FeSChapter 10. Viscosity and density measurements of melts and glasses at high pressure and temperature by using the multi-anvil apparatus and synchrotron X-ray radiation Chapter 11. The effect of composition, compression, and decompression on the structure of high-pressure aluminosilicate glasses: an investigation utilizing 17O and 27Al NMR; Chapter 12. The application of 17O and 27Al solid-state (3QMAS) NMR to structures of non-crystalline silicates at high-pressure; Part IV: Structural and magnetic propertiesChapter 13. Decompression of majoritic garnet: an experimental investigation of mantle periodotite exhumation Chapter 14. Chemistry at extreme conditions: approaching the Earth's major interface; Chapter 15. Pressure dependence on the magnetic properties of titanomagnetite using the reversible susceptibility method; Part V: Diffraction and spectroscopy; Chapter 16. High-pressure angle-dispersive powder diffraction using an energy-dispersive setup and white synchrotron radiationChapter 17. Methods and application of the Paris-Edinburgh Press to X-ray diffraction structure solution with large-volume samples at high pressures and temperaturesHigh-pressure mineral physics is a field that is strongly driven by the development of new technology. Fifty years ago, when experimentally achievable pressures were limited to just 25 GPa, little was know about the mineralogy of the Earth's lower mantle. Silicate perovskite, the likely dominant mineral of the deep Earth, was identified only when the high-pressure techniques broke the pressure barrier of 25 GPa in 1970's. However, as the maximum achievable pressure reached beyond one Megabar (100 GPa) and even to the pressure of Earth's core on minute samples, new discoveries increasingly wereMineralogyMineralogical chemistryGeophysicsMaterials at high pressuresElectronic books.Mineralogy.Mineralogical chemistry.Geophysics.Materials at high pressures.550Chen Jiahua1052166MiAaPQMiAaPQMiAaPQBOOK9910457435603321Advances in high-pressure technology for geophysical applications2483171UNINA01254nam0 22003011i 450 UON0010257420231205102559.89220020107f |0itac50 baaraSA|||| 1||||ˆal-‰Mamlaka al-'arabiyya al-su'udiyya fi sur'wa arqamal-Riyad : Wizarat al-i'lam[19..]1 v.21 cmAltro front.: Kingdom of Saudi Arabiapictures and figures = Le Royame d'Arabie SéouditeUON00364848Kingdom of Saudi Arabia...UON00364849ˆLe ‰Royame d'Arabie SeouditeArabia SauditaStoriaUONC010680FISARiyadhUONL001900ARS IARABIA SAUDITA - GENERALIAAARABIA SAUDITAWIZARAT al-I'LAMUONV065751Wizarat al-I'lam (Arabia Saudita)UONV264256650ITSOL20250530RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00102574SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI ARS I 005 SI SA 27383 5 005 Mamlaka al-'arabiyya al-su'udiyya fi sur'wa arqam1310696UNIOR