Somerset, : Wiley, 2014

1-118-92055-4

1 online resource (312 p.)

CahusacPeter M. B

610.2/1

Medical statistics -- Textbooks

Medical statistics

Health Care Evaluation Mechanisms

Medicine

Methods

Mathematics

Research

Epidemiologic Methods

Environment and Public Health

Health

Investigative Techniques

Natural Science Disciplines

Science

Population Characteristics

Quality of Health Care

Health Occupations

Health Care

Health Care Quality, Access, and Evaluation

Analytical, Diagnostic and Therapeutic Techniques and Equipment

Disciplines and Occupations

Public Health

Statistics as Topic

Research Design

Health & Biological Sciences

Medical Statistics

Electronic books.

Inglese

Description based upon print version of record.

Starting Out in Statistics; Contents; Introduction - What's the Point of Statistics?; Reference; Basic Maths for Stats Revision; Statistical Software Packages; About the Companion Website; 1 Introducing Variables, Populations and Samples - 'Variability is the Law of Life'; 1.1 Aims; 1.2 Biological data vary; 1.3 Variables; 1.4 Types of qualitative variables; 1.4.1 Nominal variables; 1.4.2 Multiple response variables; 1.4.3 Preference variables; 1.5 Types of quantitative variables; 1.5.1 Discrete variables; 1.5.2 Continuous variables; 1.5.3 Ordinal variables - a moot point

1.6 Samples and populations1.7 Summary; Reference; 2 Study Design and Sampling - 'Design is Everything. Everything!'; 2.1 Aims; 2.2 Introduction; 2.3 One sample; 2.4 Related samples; 2.5 Independent samples; 2.6 Factorial designs; 2.7 Observational study designs; 2.7.1 Cross-sectional design; 2.7.2 Case-control design; 2.7.3 Longitudinal studies; 2.7.4 Surveys; 2.8 Sampling; 2.9 Reliability and validity; 2.10 Summary; References; 3 Probability - 'Probability ... So True in General'; 3.1 Aims; 3.2 What is probability?; 3.3 Frequentist probability; 3.4 Bayesian probability

3.5 The likelihood approach3.6 Summary; References; 4 Summarising Data - 'Transforming Data into Information'; 4.1 Aims; 4.2 Why summarise?; 4.3 Summarising data numerically - descriptive statistics; 4.3.1 Measures of central location; 4.3.2 Measures of dispersion; 4.4 Summarising data graphically; 4.5 Graphs for summarising group data; 4.5.1 The bar graph; 4.5.2 The error plot; 4.5.3 The box-and-whisker plot; 4.5.4 Comparison of graphs for group data; 4.5.5 A little discussion on error bars; 4.6 Graphs for displaying relationships between variables; 4.6.1 The scatter diagram or plot

4.6.2 The line graph4.7 Displaying complex (multidimensional) data; 4.8 Displaying proportions or percentages; 4.8.1 The pie chart; 4.8.2 Tabulation; 4.9 Summary; References; 5 Statistical Power - '. . . Find out the Cause of this Effect'; 5.1 Aims; 5.2 Power; 5.3 From doormats to aortic valves; 5.4 More on the normal distribution; 5.4.1 The central limit theorem; 5.5 How is power useful?; 5.5.1 Calculating the power; 5.5.2 Calculating the sample size; 5.6 The problem with p values; 5.7 Confidence intervals and power; 5.8 When to stop collecting data

5.9 Likelihood versus null hypothesis testing5.10 Summary; References; 6 Comparing Groups using t-Tests and ANOVA - 'To Compare is not to Prove'; 6.1 Aims; 6.2 Are men taller than women?; 6.3 The central limit theorem revisited; 6.4 Student's t-test; 6.4.1 Calculation of the pooled standard deviation; 6.4.2 Calculation of the t statistic; 6.4.3 Tables and tails; 6.5 Assumptions of the t-test; 6.6 Dependent t-test; 6.7 What type of data can be tested using t-tests?; 6.8 Data transformations; 6.9 Proof is not the answer; 6.10 The problem of multiple testing

6.11 Comparing multiple means - the principles of analysis of variance

To form a strong grounding in human-related sciences it is essential for students to grasp the fundamental concepts of statistical analysis, rather than simply learning to use statistical software. Although the software is useful, it does not arm a student with the skills necessary to formulate the experimental design and analysis of a research project in later years of study or indeed, if working in research.   This textbook deftly covers a topic that many students find difficult. With an engaging and accessible style it provides the necessary background and tools for

students to use statist

Cambridge : , : Cambridge University Press, , 2014

1-107-50324-8

1-139-89546-X

1-107-50418-X

1-107-49768-X

1-107-51725-7

1-107-50145-8

1-107-50683-2

1-107-33876-X

1 online resource (xvii, 249 pages) : digital, PDF file(s)

TEC009070

532/.597

Bubbles - Dynamics

Inglese

Title from publisher's bibliographic system (viewed on 05 Oct 2015).

Includes bibliographical references and index.

Phase change, nucleation, and cavitation -- Spherical bubble dynamics -- Cavitation bubble collapse -- Dynamics of oscillating bubbles -- Translation of bubbles -- Homogeneous bubbly flows -- Cavitating flows -- Free streamline flows.

Cavitation and Bubble Dynamics deals with the fundamental physical processes of bubble dynamics and the phenomenon of cavitation. It is ideal for graduate students and research engineers and scientists, and a basic knowledge of fluid flow and heat transfer is assumed. The analytical methods presented are developed from basic principles. The book begins with a chapter on nucleation and describes both the theory and observations in flowing and non-flowing systems. Three chapters provide a systematic treatment of the dynamics and growth, collapse,

or oscillation of individual bubbles in otherwise quiescent fluids. The following chapters summarise the motion of bubbles in liquids, describe some of the phenomena that occur in homogeneous bubbly flows, with emphasis on cloud cavitation, and summarise some of the experimental observations of cavitating flows. The last chapter provides a review of free streamline methods used to treat separated cavity flows with large attached cavities.

Cham : , : Springer International Publishing : , : Imprint : Springer, , 2016

3-319-41273-6

1 online resource (XV, 140 p. 60 illus., 57 illus. in color.)

Springer Theses, Recognizing Outstanding Ph.D. Research, , 2190-5053

629.4113

Astronomy

Astronomy—Observations

Astrophysics

Space sciences

Exobiology

Astronomy, Observations and Techniques

Astrophysics and Astroparticles

Space Sciences (including Extraterrestrial Physics, Space Exploration and Astronautics)

Astrobiology

Inglese

"Doctoral thesis accepted by the University of St. Andrews, UK."

Includes bibliographical references at the end of each chapters and index.

Introduction: the Hunt for Extra-solar Planets -- A Toolkit to Detect Planets Around Active Stars -- Application to Observations of Planet-hosting Stars -- An Exploration into the Radial-velocity Variability of

the Sun -- Conclusion.

This thesis develops new and powerful methods for identifying planetary signals in the presence of “noise” generated by stellar activity, and explores the physical origin of stellar intrinsic variability, using unique observations of the Sun seen as a star. In particular, it establishes that the intrinsic stellar radial-velocity variations mainly arise from suppression of photospheric convection by magnetic fields. With the advent of powerful telescopes and instruments we are now on the verge of discovering real Earth twins in orbit around other stars. The intrinsic variability of the host stars themselves, however, currently remains the main obstacle to determining the masses of such small planets. The methods developed here combine Gaussian-process regression for modeling the correlated signals arising from evolving active regions on a rotating star, and Bayesian model selection methods for distinguishing genuine planetary signals from false positives produced by stellar magnetic activity. The findings of this thesis represent a significant step towards determining the masses of potentially habitable planets orbiting Sun-like stars. .