03156nam 2200505 450 991055424840332120230629233208.00-300-25842-910.12987/9780300258424(CKB)5590000000487328(DE-B1597)583209(DE-B1597)9780300258424(MiAaPQ)EBC6639448(Au-PeEL)EBL6639448(OCoLC)1260348320(EXLCZ)99559000000048732820220202d2021 uy 0engur||#||||||||txtrdacontentcrdamediacrrdacarrierMathematical models in the biosciences I /Michael FrameNew Haven, Connecticut :Yale University Press,[2021]©20211 online resource (xxii, 519 pages) : $b illustrations0-300-22831-7 Includes bibliographical references and index.Preface --Ways to use this book --Review --Discrete dynamics --Differential equations models --Single-variable differential equations --Definite integrals and improper integrals --Power laws --Differential equations in the plane --Linear systems and stability --Nonlinear systems and stability --Infinite series and power series --Some probability --Why this matters --Appendix A. Technical --Appendix B. Some Mathematica code --Appendix C. Some useful integrals and hints.An award-winning professor’s introduction to essential concepts of calculus and mathematical modeling for students in the biosciences This book introduces mathematical modeling to bioscience students, with first semester calculus as the only prerequisite. It is the first of a two-part series exploring essential concepts of calculus in the context of biological systems. Michael Frame covers the essential ideas and theories of basic calculus while providing examples of how they relate and are applicable to subjects such as chemotherapy and tumor growth, chemical diffusion, allometric scaling, predator-prey relations, nerve impulses, and more. He presents Pearl’s causality calculus to resolve Simpson’s paradox, simple cardiac dynamics models, basic epidemiological models including Ronald Ross’s study of malaria and its epidemic curves, and limit cycles for the glycolysis model. Based on the author’s calculus class at Yale, the book makes concepts of calculus less abstract and more relatable for science majors and premedical students.Mathematical models in the biosciences 1Life sciencesMathematical modelsInstructional and educational works.fastInstructional and educational works.lcgftMatériel d'éducation et de formation.rvmgfLife sciencesMathematical models.570.15118Frame Michael1217317MiAaPQMiAaPQMiAaPQBOOK9910554248403321Mathematical models in the biosciences I2815379UNINA02435nam0 2200445 i 450 BVE005218820231121125413.08870628558IT94-10407 19951024d1994 ||||0itac50 baitafreitz01i xxxe z01nStrade romane: percorsi e infrastruttureRomaL'Erma di Bretschneieder\1994!248 p.ill.26 cmAtlante tematico di topografia antica2In testa al front.: Università di Bologna, Istituto di archeologia, Cattedra di topografia dell'Italia antica.001CFI02135352001 Atlante tematico di topografia antica2Topografia romanaFIRRMLC073883IStrade romaneFIRRMLC048213N913.721Università degli studi <Bologna> : Cattedra di topografia dell'Italia anticaCFIV119106Università degli studi <Bologna> : Istituto di archeologia : Cattedra di topografia dell'Italia anticaCFIV119130Università degli studi <Bologna> : Cattedra di topografia dell'Italia anticaUniversità degli studi <Bologna> : Facoltà di lettere e filosofia : Istituto di archeologia : Cattedra di topografia dell'Italia anticaCFIV119131Università degli studi <Bologna> : Cattedra di topografia dell'Italia anticaITIT-0119951024IT-RM028 IT-RM0289 IT-RM0418 IT-RM0249 IT-RM0211 IT-FR0084 IT-FR0017 Biblioteca Universitaria AlessandrinaRM028 Biblioteca Statale A. BaldiniRM0289 BIBLIOTECA ACCADEMIA NAZ. DEI LINCEI E CORSINIANARM0418 SOCIETA' ROMANA DI STORIA PATRIARM0249 Fondazione Marco BessoRM0211 Biblioteca Del Monumento Nazionale Di MontecassinoFR0084 Biblioteca umanistica Giorgio ApreaFR0017 BVE0052188Biblioteca umanistica Giorgio Aprea 52MAG 1 Coll V 2 52FLS0000120875 VMB RS A 2020050520200505 01 04 10 11 14 25 52STRADE romane percorsi e infrastrutture553412UNICAS