00779nam0-22002651i-450-99000108368040332120091105161850.0000108368FED01000108368(Aleph)000108368FED0100010836820001205d--------km-y0itay50------baeng<<An >>Introduction to Analytic Geometry and CalculusA.C. BurdetteNew YorkAcademic Press1973Geometria descrittiva, analitica, differenziale514Burdette,A.C.51555ITUNINARICAUNIMARCBK99000108368040332112-111F15528FI1FI1Introduction to Analytic Geometry and Calculus336168UNINA00914nam a22002411i 450099100340071970753620040407213450.0040802s1976 fr a||||||||||||||||fre b13069676-39ule_instARCHE-102228ExLBiblioteca InterfacoltàitaA.t.i. Arché s.c.r.l. Pandora Sicilia s.r.l.746.7Gans Ruedin, Erwin489188Tapis d'Orient /E. Gans RuedinParis :Société française du livre,c19769 p., [19] c. di tav. :ill. ;19 cmTappeti orientali.b1306967602-04-1405-08-04991003400719707536LE002 Fondo Giudici Busta 37/01112002000293909le002C. 1-E0.00-no 00000.i1369685305-08-04Tapis d'Orient291562UNISALENTOle00205-08-04ma -frefr 0102649nam 2200601 450 991082398990332120240131195528.084-9180-477-384-9180-476-5(CKB)4100000008700520(MiAaPQ)EBC5810008(OCoLC)1126310726(FINmELB)ELB113334(MiAaPQ)EBC7051242(Au-PeEL)EBL7051242(EXLCZ)99410000000870052020191010d2019 uy 0spaurcnu||||||||txtrdamedia/spacrdamedia/spardacarrier/spaGestión de programas de proyectos informáticos (y no informáticos) /David López, José Ramón Rodríguez, Juan José GonzálezBarcelona :Editorial UOC,2019.1 recurso en línea (114 páginas)Tecnología84-9180-475-7 Contiene bibliografía.La selección y gestión de las inversiones en iniciativas que realizan un uso intenso de las tecnologías de la información es una de las capacidades clave en el desarrollo que todas las empresas necesitan, especialmente tras la eclosión de la transformación digital. Este libro presenta una aproximación práctica, pero rigurosa, a la gestión de programas, proporcionando modelos organizativos, procesos y herramientas alineados con los estándares profesionales más comunes y con las buenas prácticas. Sus autores son directivos, consultores y profesores de la especialidad que aportan una visión multidisciplinaria y están experimentados en el diseño y la implantación de programas de proyectos en diferentes entornos empresariales.Tecnología.Project managementIndustrial managementInformation technologyGestión de proyectosAdministracion de empresasInnovavciones tecnológicasLibros electronicos.Project management.Industrial management.Information technology.Gestión de proyectos.Administracion de empresas.Innovavciones tecnológicas.658.404López David499838Rodríguez José RamónGonzález Juan JoséFINmELBFINmELBBOOK9910823989903321Gestión de programas de proyectos informáticos (y no informáticos)3927083UNINA06090nam 22004573 450 991080805550332120230629223350.09781624106347(electronic bk.)9781624106187(MiAaPQ)EBC29275814(Au-PeEL)EBL29275814(CKB)22892145700041(EXLCZ)992289214570004120220527d2022 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierMissile Design Guide1st ed.Reston :American Institute of Aeronautics & Astronautics,2022.©2022.1 online resource (485 pages)Print version: Fleeman, Eugene L. Missile Design Guide Reston : American Institute of Aeronautics & Astronautics,c2022 9781624106187 Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Chapter 1: Introduction -- 1.1 Overview -- 1.2 Missile Characteristics Comparison -- 1.3 Conceptual Design and System Engineering Process -- 1.4 System-of-Systems Comparison -- 1.5 Examples of State-of-the-Art Missiles -- 1.6 Examples of Alternatives in Establishing Mission Requirements -- 1.7 Use of a Baseline Missile -- Chapter 2: Aerodynamics -- 2.1 Introduction -- 2.2 Missile Diameter Tradeoff -- 2.3 Nose Fineness and Geometry Tradeoffs -- 2.4 Body Drag Prediction -- 2.5 Boattail Tradeoffs -- 2.6 Body Normal Force and Lift-to-Drag Prediction -- 2.7 Sign Convention of Forces, Moments, and Axes -- 2.8 Static Stability and Body Aerodynamic Center Prediction -- 2.9 Flare Stabilizer Tradeoffs -- 2.10 Wings Versus No Wings -- 2.11 Normal Force Prediction for Planar Surfaces -- 2.12 Aerodynamic Center Location and Hinge Moment Prediction for Planar Surfaces -- 2.13 Planar Surface Drag and Lift-to-Drag Prediction -- 2.14 Surface Planform Geometry and Integration Alternatives -- 2.15 Flight Control Alternatives -- 2.16 Maneuver Law Alternatives -- 2.17 Roll Angle and Control Surface Sign Convention -- 2.18 Trim and Static Stability Considerations -- 2.19 Stability and Control Conceptual Design Criteria -- Chapter 3: Propulsion -- 3.1 Introduction -- 3.2 Propulsion Alternatives Assessment -- 3.3 Turbojet Flow Path, Components, and Nomenclature -- 3.4 Turbojet Thrust Prediction -- 3.5 Turbojet Specific Impulse Prediction -- 3.6 Subsonic Turbojet Propulsion Efficiency -- 3.7 Ramjet Flow Path, Components, and Nomenclature -- 3.8 Ramjet Temperature and Specific Impulse Prediction -- 3.9 Ramjet Thrust Prediction -- 3.10 Ramjet Inlet Design Considerations -- 3.11 Ramjet Combustor Design Considerations -- 3.12 Ramjet Booster Integration -- 3.13 Ramjet Inlet Options.3.14 Supersonic Inlet/Airframe Integration -- 3.15 Fuel Alternatives -- 3.16 Solid Propellant Rocket Motor Flow Path, Components, and Nomenclature -- 3.17 Rocket Motor Performance Prediction -- 3.18 Rocket Motor Sizing Process -- 3.19 Solid Propellant Rocket Motor Production Alternatives -- 3.20 Solid Propellant Rocket Thrust Magnitude Control -- 3.21 Solid Propellant Alternatives -- 3.22 Solid Propellant Aging -- 3.23 Solid Propellant Rocket Combustion Stability -- 3.24 Rocket Motor Case and Nozzle Material Alternatives -- 3.25 Ducted Rocket Design Considerations -- Chapter 4: Weight -- 4.1 Introduction -- 4.2 Missile Weight Prediction -- 4.3 Center-of-Gravity and Moment-of-Inertia Prediction -- 4.4 Missile Airframe Structure Manufacturing Processes -- 4.5 Missile Airframe Material Alternatives -- 4.6 Missile Structure/Insulation Trades -- 4.7 H igh Temperature Insulation Materials -- 4.8 Missile Aerodynamic Heating/Thermal Response Prediction -- 4.9 Localized Aerodynamic Heating and Thermal Stress -- 4.10 Missile Structure Design -- 4.11 Seeker Dome Alternatives -- 4.12 Missile Power Supply and Flight Control Actuators -- Chapter 5: Flight Performance -- 5.1 Introduction -- 5.2 Missile Flight Performance Envelope -- 5.3 Equations of Motion Modeling -- 5.4 Driving Parameters for Missile Flight Performance -- 5.5 Steady-State Flight and Constant Bearing Intercept -- 5.6 Boost, Glide, Coast, Ballistic, and Divert Flight -- 5.7 Turn Performance -- Chapter 6: Other Measures of Merit -- 6.1 Introduction -- 6.2 Robustness -- 6.3 Lethality -- 6.4 Accuracy -- 6.5 Carriage and Launch Observables -- 6.6 Missile Survivability and Safety -- 6.7 Reliability -- 6.8 Cost -- 6.9 Launch Platform/Fire Control Integration -- Chapter 7: Sizing Examples and Sizing Tools -- 7.1 Introduction -- 7.2 Rocket Baseline Missile -- 7.3 Ramjet Baseline Missile.7.4 T urbojet Baseline Missile -- 7.5 Baseline Guided Bomb -- 7.6 Computer Aided Conceptual Design Sizing Tools -- 7.7 Soda Straw Rocket (DBF, Pareto, Uncertainty Analysis, HOQ, DOE) -- Chapter 8: Development Process -- 8.1 Missile Technology and System Development Process -- 8.2 E xamples of State-of-the-Art Advancement -- 8.3 Enabling Technologies for Missiles -- Chapter 9: Lessons Learned -- Chapter 10: Summary -- 10.1 Missile Design Guidelines -- 10.2 Wrap Up -- Chapter 11: References, Bibliography -- 11.1 References -- 11.2 Bibliography -- Chapter 12: Appendices -- List of Figures -- Follow-up Communication -- Index -- Supplemental Materials.In his latest book, Missile Design Guide, Eugene Fleeman presents a comprehensive compilation of the missile design process pulling from his 50+ years of experience in the design and development of missile systems. The handbook consists of full color figures with self-standing graphs, tables, charts, and diagrams.Tactical missilesDesign and constructionAstronauticsSystems engineeringTactical missilesDesign and construction.AstronauticsSystems engineering.623.4/519Fleeman Eugene L1611236MiAaPQMiAaPQMiAaPQ9910808055503321Missile Design Guide3939381UNINA