01161nam--2200385---450 99000032003020331620240314121649.00-387-98759-20032003USA010032003(ALEPH)000032003USA01003200320010108d2000----km-y0itay0103----baengDE||||||||001yyIntroduction to topological manifoldsJohn M. LeeNew YorkSpringe-Verlagc2000XVII, 385 p.ill.20 cmGraduate texts in mathematics2020010003153472001Graduate texts in mathematics202Spazi topologiciBNCF514.32LEE,John M.61929ITsalbcISBD990000320030203316510 GTM 2020025743 CBS51000103395BKSCITAMI4020010108USA011508ALANDI9020010628USA01180120020403USA011640PATRY9020040406USA011622Introduction to topological manifolds78174UNISA05379nam 2200697Ia 450 991102018260332120200520144314.09786612259425978128225942312822594239780470496862047049686X97804704968550470496851(CKB)1000000000794375(EBL)455869(SSID)ssj0000109080(PQKBManifestationID)11125195(PQKBTitleCode)TC0000109080(PQKBWorkID)10044383(PQKB)10778255(MiAaPQ)EBC455869(OCoLC)441888504(Perlego)2751866(EXLCZ)99100000000079437520090501d2009 uy 0engur|n|---|||||txtccrBasic statistics a primer for the biomedical sciences /Olive Jean Dunn, Virginia A. Clark4th ed.Hoboken, NJ John Wiley & Sonsc20091 online resource (271 p.)Description based upon print version of record.9780470248799 0470248793 Includes bibliographical references and index.Basic Statistics; CONTENTS; Preface to the Fourth Edition; 1 Initial Steps; 1.1 Reasons for Studying Biostatistics; 1.2 Initial Steps in Designing a Biomedical Study; 1.2.1 Setting Objectives; 1.2.2 Making a Conceptual Model of the Disease Process; 1.2.3 Estimating the Number of Persons with the Risk Factor or Disease; 1.3 Common Types of Biomedical Studies; 1.3.1 Surveys; 1.3.2 Experiments; 1.3.3 Clinical Trials; 1.3.4 Field Trials; 1.3.5 Prospective Studies; 1.3.6 Case/Control Studies; 1.3.7 Other Types of Studies; 1.3.8 Rating Studies by the Level of Evidence; 1.3.9 CONSORT; ProblemsReferences2 Populations and Samples; 2.1 Basic Concepts; 2.2 Definitions of Types of Samples; 2.2.1 Simple Random Samples; 2.2.2 Other Types of Random Samples; 2.2.3 Reasons for Using Simple Random Samples; 2.3 Methods of Selecting Simple Random Samples; 2.3.1 Selection of a Small Simple Random Sample; 2.3.2 Tables of Random Numbers; 2.3.3 Sampling With and Without Replacement; 2.4 Application of Sampling Methods in Biomedical Studies; 2.4.1 Characteristics of a Good Sampling Plan; 2.4.2 Samples for Surveys; 2.4.3 Samples for Experiments; 2.4.4 Samples for Prospective Studies2.4.5 Samples for Case/Control StudiesProblems; References; 3 Collecting and Entering Data; 3.1 Initial Steps; 3.1.1 Decide What Data You Need; 3.1.2 Deciding How to Collect the Data; 3.1.3 Testing the Collection Process; 3.2 Data Entry; 3.3 Screening the Data; 3.4 Code Book; Problems; References; 4 Frequency Tables and Their Graphs; 4.1 Numerical Methods of Organizing Data; 4.1.1 An Ordered Array; 4.1.2 Stem and Leaf Tables; 4.1.3 The Frequency Table; 4.1.4 Relative Frequency Tables; 4.2 Graphs; 4.2.1 The Histogram: Equal Class Intervals; 4.2.2 The Histogram: Unequal Class Intervals4.2.3 Areas Under the Histogram4.2.4 The Frequency Polygon; 4.2.5 Histograms with Small Class Intervals; 4.2.6 Distribution Curves; Problems; References; 5 Measures of Location and Variability; 5.1 Measures of Location; 5.1.1 The Arithmetic Mean; 5.1.2 The Median; 5.1.3 Other Measures of Location; 5.2 Measures of Variability; 5.2.1 The Variance and the Standard Deviation; 5.2.2 Other Measures of Variability; 5.3 Sampling Properties of the Mean and Variance; 5.4 Considerations in Selecting Appropriate Statistics; 5.4.1 Relating Statistics and Study Objectives5.4.2 Relating Statistics and Data Quality5.4.3 Relating Statistics to the Type of Data; 5.5 A Common Graphical Method for Displaying Statistics; Problems; References; 6 The Normal Distribution; 6.1 Properties of the Normal Distribution; 6.2 Areas Under the Normal Curve; 6.2.1 Computing the Area Under a Normal Curve; 6.2.2 Linear Interpolation; 6.2.3 Interpreting Areas as Probabilities; 6.3 Importance of the Normal Distribution; 6.4 Examining Data for Normality; 6.4.1 Using Histograms and Box Plots; 6.4.2 Using Normal Probability Plots or Quantile-Quantile Plots; 6.5 Transformations6.5.1 Finding a Suitable TransformationNew Edition of a Classic Guide to Statistical Applications in the Biomedical Sciences In the last decade, there have been significant changes in the way statistics is incorporated into biostatistical, medical, and public health research. Addressing the need for a modernized treatment of these statistical applications, Basic Statistics, Fourth Edition presents relevant, up-to-date coverage of research methodology using careful explanations of basic statistics and how they are used to address practical problems that arise in the medical and public health settings. Through concise and eaMedical statisticsBiometryMedical statistics.Biometry.519.5/02461519.502461Dunn Olive Jean30563Clark Virginia1928-30564MiAaPQMiAaPQMiAaPQBOOK9911020182603321Basic statistics4420939UNINA