01336nam 2200409 450 9910494721703321(CKB)3710000001576683(MiAaPQ)EBC4939153(EXLCZ)99371000000157668320170825h20172017 uy 0engurcnu||||||||rdacontentrdamediardacarrierStepping up skills in Urban Ghana snapshot of the STEP skills measurement survey /Peter Darvas, Marta Favara, and Tamara ArnoldWashington, District of Columbia :World Bank Group,2017.©20171 online resource (153 pages) illustrationsDirections in Development : Human Development1-4648-1012-5 1-4648-1013-3 Includes bibliographical references at the end of each chapters.Directions in development (Washington, D.C.)GhanaSocial conditionsElectronic books.306.09667Darvas Péter861527Favara MartaArnold TamaraMiAaPQMiAaPQMiAaPQBOOK9910494721703321Stepping up skills in Urban Ghana2447706UNINA05436nam 2200685 450 991046062260332120200520144314.01-4863-0067-7(CKB)3710000000335347(EBL)1918601(SSID)ssj0001432199(PQKBManifestationID)11852450(PQKBTitleCode)TC0001432199(PQKBWorkID)11390366(PQKB)10220575(MiAaPQ)EBC1918601(Au-PeEL)EBL1918601(CaPaEBR)ebr11006953(OCoLC)879642790(EXLCZ)99371000000033534720150128h20152015 uy 0engur|n|---|||||txtccrBiology and evolution of crocodylians /text by Gordon Grigg ; illustrations by David Kirshner ; foreword by Rick ShineIthaca, New York :Comstock Publishing Associates,2015.©20151 online resource (671 p.)Description based upon print version of record.1-4863-0066-9 Includes bibliographical references and index.Cover; FOREWORD; Contents; PREFACE; ACKNOW LEDGEMENTS; 1 INTRODUCTION; Introducing crocodylians; The three 'families': Crocodylidae, Alligatoridae and Gavialidae; Differences between crocodylids, alligatorids and gharials; Terminology; The living species ofcrocodylians; Recent taxonomic changes in African Crocodiles; The growth of scientific knowledge about crocodylians; Beginnings; More recent research; Crocodylians as research subjects; Body size and age; Crocodylians large and small; Relationships between length and mass; How long do crocodylians live?; 2 THE CROCODYLIAN FAMILY TREEThe modern crocodylians and their relationshipsExtant Crocodylia; Affinities between species within Crocodylidae; Affinities between species within Alligatoridae; The affinity of the Malay or false Gharial, Tomistoma schlegelii; Extinct Crocodylia and other crocodile-like reptiles; crocs in 'deep time'; Amniotes, synapsids, reptiles, anapsids and diapsids; The earliest 'Archosaurs', Archosauriformes; Archosaurs; two major clades, Crurotarsi (Pseudosuchia) and Avemetatarsalia (Ornithodira); Crurotarsan diversification in the early Triassic: the earliest crocodile-like reptilesBasal crocodylomorphsCrocodyliformes (excluding Eusuchia); Non-eusuchian Mesoeucrocodylia; Bernissartia and extinct Eusuchia (including extinct Crocodylia); Summary; 3 CROCODYLIANS CLOSER UP; The external features of crocodylians; Body and limbs; Skin and scales; Skin colour; Bony armour; Head; Teeth; Integumentary sense organs (ISOs); Skin glands; Skull and musculoskeletal system; Skull and jaws; Opening and closing the jaws; Vertebrae and vertebral column; Neck: supporting a heavy head; Trunk musculature: analogy with an I-beam; Trunk: ribs and gastralia; Tail: the crocodylian propellerForelimbs and pectoral girdleHindlimbs and pelvic girdle; 4 LOCOMOTION, BUOYANCY AND TRAVEL; Crocodylians on land; Gaits on land; Crocodylians in the water; Typical postures at rest in water; Swimming; Jumping and 'tail walking'; Diving; Bottom walking; Surfacing to breathe; Head and tail lift; Buoyancy; Behaviours that depend on good buoyancy control; Mechanisms of buoyancy regulation; Stomach stones(gastroliths); The search for a function; What function could the stones serve?; Capacity for long distance travel; 5 SENSORY SKILLS AND BRAIN; VisionOperational aspects, binocularity, vision underwaterAnatomy of the eye; Retinal cells, pigments, colour vision; Night vision, the tapetum lucidum; Hearing, movement and balance; Functional anatomy of the ears and associated sense organs; Hearing sensitivity in air and water in the human audible range; Sub-audible vibrations, infrasound: possible role of the sacculus; Magnetoreception? Possible role of the lagena; Eustachian tubes: for diving and/or sensing direction of sound, or infrasound?; Brain and cranial nerves; Olfaction and gustation(chemosensation); Olfaction (smell)Gustation (taste)Biology and Evolution of Crocodylians is a comprehensive review of current knowledge about the world's largest and most famous living reptiles.Gordon Grigg's authoritative and accessible text and David Kirshner's stunning interpretive artwork and colour photographs combine expertly in this contemporary celebration of crocodiles, alligators, caimans and gharials. This book showcases the skills and capabilities that allow crocodylians to live how and where they do. It covers the biology and ecology of the extant species, conservation issues, crocodylian-human interaction and the evolutionary hisCrocodiliansCrocodiliansEvolutionCrocodilesCrocodilesEvolutionElectronic books.Crocodilians.CrocodiliansEvolution.Crocodiles.CrocodilesEvolution.597.98Grigg Gordon983758Kirshner DavidShine RichardMiAaPQMiAaPQMiAaPQBOOK9910460622603321Biology and evolution of crocodylians2246044UNINA04530nam 2201153z- 450 991058593640332120231214133006.0(CKB)5600000000483121(oapen)https://directory.doabooks.org/handle/20.500.12854/91139(EXLCZ)99560000000048312120202208d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvances in the Field of Electrical Machines and DrivesBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (252 p.)3-0365-4285-X 3-0365-4286-8 Electrical machines and drives dominate our everyday lives. This is due to their numerous applications in industry, power production, home appliances, and transportation systems such as electric and hybrid electric vehicles, ships, and aircrafts. Their development follows rapid advances in science, engineering, and technology. Researchers around the world are extensively investigating electrical machines and drives because of their reliability, efficiency, performance, and fault-tolerant structure. In particular, there is a focus on the importance of utilizing these new trends in technology for energy saving and reducing greenhouse gas emissions. This Special Issue will provide the platform for researchers to present their recent work on advances in the field of electrical machines and drives, including special machines and their applications; new materials, including the insulation of electrical machines; new trends in diagnostics and condition monitoring; power electronics, control schemes, and algorithms for electrical drives; new topologies; and innovative applications.Technology: general issuesbicsscHistory of engineering & technologybicsscfault sizeinter-laminar faultlocalized lossesthermographic measurementthermal-electric couplingaxial fluxdemagnetizationfinite element analysispermanent magnetstatic eccentricitysynchronous generatorpower loss minimizationspeed control drive systemsefficiency measurementIPMSMadditive manufacturingthree-dimensional printingtopology optimizationmagnetic materialssoft magnetic materialspermanent magnetselectrical machinestorque ripple6th harmonicinduction motorAC machinePWM inverterspace phasor modulationelectric motorinterior permanent magnetreluctanceMMF-permeancewinding functionpredictive maintenancedigital twinartificial intelligenceIndustry 4.0data handlinglife cycleelectric machineselectromagnetic analysiselectromagnetic measurementscore lossesrotor flux linkagemodular statororiented steelflux-injecting probesinsulation systempartial dischargescapacitive modelMATLAB/Simulinkflashover voltageepoxy resinmatrix-converterinput AC filter designPMSMpredictive controlelectrical drivesenergy efficiencyenergy-savingpower qualitycurrent signalsstray flux signalsLDAautomatic fault diagnosisbroken rotor barssoft-startersTechnology: general issuesHistory of engineering & technologyKarlis Athanasiosedt1277796Karlis AthanasiosothBOOK9910585936403321Advances in the Field of Electrical Machines and Drives3012072UNINA