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200 10$aNorm derivatives and characterizations of inner product spaces$b[electronic resource] /$fClaudi Alsina, Justyna Sikorska, M. Santos Toma?s
210   $aSingapore $cWorld Scientific$dc2010
215   $a1 online resource (190 p.)
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a981-4287-26-1 
320   $aIncludes bibliographical references and index.
327   $aNorm Derivatives; Characterizations of Inner Product Spaces; Orthogonality Relations; Norm Derivatives and Heights; Perpendicular Bisectors in Real Normed Spaces; Bisectrices in Real Normed Spaces; Areas of Triangles in Normed Real Spaces.
330 8 $aThis work provides a comprehensive overview of the characterizations of real normed spaces as inner product spaces based on norm derivatives and generalizations of the most basic geometrical properties of triangles in normed spaces.
606   $aNormed linear spaces
606   $aInner product spaces
608   $aElectronic books.
615  0$aNormed linear spaces.
615  0$aInner product spaces.
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200 10$aEngineers' data book /$fClifford Matthews
205   $a4th ed.
210   $aHoboken, NJ $cJohn Wiley & Sons$dc2012
215   $a1 online resource (347 p.)
225 0 $aInstitute of Mechanical Engineers
300   $aDescription based upon print version of record.
311 08$a9781119976226 
311 08$a1119976227 
327   $aENGINEERS' DATA BOOK; Contents; Foreword; Preface; Introduction - The Role of Technical Standards; Section 1: Engineering Careers; 1.1 Introduction: what is an engineer?; 1.2 A rough guide to industry breakdown; 1.3 Training and professional development; 1.4 Degrees of (engineering) excellence; 1.5 Degrees and how to pass them; 1.6 Do you have any . . . experience?; 1.7 Final cut - job interviews; Section 2: Units; 2.1 The Greek alphabet; 2.2 Units systems; 2.3 Units and conversions; 2.4 Consistency of units; 2.5 Dimensional analysis; 2.6 Essential engineering mathematics
327   $a2.7 Maths and the real world?Section 3: Engineering Design - Process and Principles; 3.1 Engineering problem-solving; 3.2 Problem types and methodologies; 3.3 Design principles; 3.4 The engineering design process; 3.5 Design as a systematic activity (the 'pugh' method); 3.6 The innovation model; 3.7 Creativity tools; 3.8 The product design specification (PDS); 3.9 Presenting technical information; 3.10 The anatomy of mechanical design; 3.11 Safety in design - principles and practice; 3.12 Design by nature - project toucan; Section 4: Basic Mechanical Design; 4.1 Engineering abbreviations
327   $a4.2 Datums and tolerances - principles4.3 Toleranced dimensions; 4.4 General tolerances; 4.5 Holes; 4.6 Screw threads; 4.7 Limits and fits; 4.8 Surface finish; Section 5: Motion; 5.1 Making sense of equilibrium; 5.2 Motion equations; 5.3 Newton's laws of motion; 5.4 Simple harmonic motion (SHM); 5.5 Understanding acceleration; 5.6 Dynamic balancing; 5.7 Vibration; 5.8 Machine vibration; 5.9 Machinery noise; Section 6: Deformable Body Mechanics; 6.1 Quick reference - mechanical notation; 6.2 Engineering structures - so where are all the pin joints?; 6.3 Simple stress and strain
327   $a6.4 Simple elastic bending6.5 Slope and deflection of beams; 6.6 Torsion; 6.7 Thin cylinders; 6.8 Cylindrical vessels with hemispherical ends; 6.9 Thick cylinders; 6.10 Buckling of struts; 6.11 Flat circular plates; 6.12 Stress concentration factors; Section 7: Material Failure; 7.1 How materials fail; 7.2 LEFM method; 7.3 Multi-axis stress states; 7.4 Fatigue; 7.5 Factors of safety; 7.6 United states practice; 7.7 Ultimate jigsaw - what everything is made of; Section 8: Thermodynamics and Cycles; 8.1 Quick reference: symbols - thermodynamics; 8.2 Basic thermodynamic laws; 8.3 Entropy
327   $a8.4 Enthalpy8.5 Other definitions; 8.6 Cycles; 8.7 The steam cycle; 8.8 Properties of steam; 8.9 Reference information; 8.10 The gas turbine (GT) cycle; Section 9: Basic Fluid Mechanics and Aerodynamics; 9.1 Basic properties; 9.2 Flow equations; 9.3 Flow regimes; 9.4 Boundary layers; 9.5 Isentropic flow; 9.6 Compressible one-dimensional flow; 9.7 Normal shock waves; 9.8 Axisymmetric flows; 9.9 Drag coefficients; 9.10 General airfoil theory; 9.11 Airfoil coefficients; 9.12 Pressure distributions; 9.13 Aerodynamic centre; 9.14 Centre of pressure; 9.15 Supersonic conditions
327   $a9.16 Wing loading: semi-ellipse assumption
330   $aA completely revised and expanded fourth edition of this best-selling pocket guide. Engineers' Data Book provides a concise and useful source of up-to-date essential information for the student or practising engineer. Updated, expanded editionEasy to useHandy reference guideCore technical data
606   $aMechanical engineering$vHandbooks, manuals, etc
606   $aMechanical engineering$vTables
615  0$aMechanical engineering
615  0$aMechanical engineering
676   $a621
700   $aMatthews$b Clifford$0471745
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