by Myra L. Samuels and Jeffrey A. Witmer
List price: $142.75
For graduate or undergraduate courses in biology, agronomy, medical and health sciences, nutrition, pharmacy, animal science, physical education, forestry, and other life sciences.
With a strong emphasis on real data, exploratory data analysis, interpretation of results, and checking assumptions, this text clearly conveys the key concepts of statistics as applied to life sciences while incorporating tools and themes of modern data analysis. The authors' goal is to help students understand concepts not memorize formulas; they make liberal use of exercises, worked examples, and graphical methods to do so.
Features:
Author Bio
Samuels, Myra L. : Oberlin College
Witmer, Jeffrey A. :
1. Introduction.
Statistics and the Life Sciences.
Examples and Overview.
2. Description of Populations and Samples.
Introduction.
Frequency Distributions: Techniques for Data. Frequency Distributions: Shapes and Examples. Descriptive Statistics: Measures of Center. Boxplots.
Measures of Dispersion.
Effect of Transformation of Variables (Optional).
Samples and Populations: Statistical Inference.
Perspective.
3. Random Sampling, Probability, and the Binomial Distribution.
Probability and the Life Sciences.
Random Sampling.
Introduction to Probability.
Probability Trees.
Probability Rules (Optional).
Density Curves.
Random Variables.
The Binomial Distribution.
Fitting a Binomial Distribution to Data (Optional).
4. The Normal Distribution.
Introduction.
The Normal Curves.
Areas Under a Normal Curve.
Assessing Normality.
The Continuity Correction (Optional).
Perspective.
5. Sampling Distributions.
Basic Ideas.
Dichotomous Observations.
Quantitative Observations.
Illustration of the Central Limit Theorem (Optional).
The Normal Approximation to the Binomial Distribution (Optional).
Perspective.
6. Confidence Intervals.
Statistical Estimation.
Standard Error of the Mean.
Confidence Interval.
Planning a Study to Estimate.
Conditions for Validity of Estimation Methods.
Confidence Interval for a Population Proportion.
Perspective and Summary.
7. Comparison of Two Independent Samples.
Introduction.
Standard Error of (y1 - y2).
Confidence Interval.
Hypothesis Testing: The t-test.
Further Discussion of the t-test.
One-Tailed Tests.
More on Interpretation of Statistical Significance.
Planning for Adequate Power (Optional).
Student's t: Conditions and Summary.
More on Principles of Testing Hypotheses.
The Wilcoxon-Mann-Whitney Test.
Perspective.
8. Statistical Principles of Design.
Introduction.
Observational Studies.
Experiments.
Restricted Randomization: Blocking and Stratification.
Levels of Replication.
Sampling Concerns (Optional).
Perspective.
9. Comparison of Paired Samples.
Introduction.
The Paired-Sample t-Test and Confidence Interval.
The Paired Design.
The Sign Test.
The Wilcoxon Signed-Rank Test.
Further Considerations in Paired Experiments.
Perspective.
10. Analysis of Categorical Data.
Inference for Proportions: The Chi-Squared Goodness-of-Fit Test.
The Chi-Squared Test for a 2 X 2 Contingency Table.
Independence and Association in a 2 X 2 Contingency Table.
Fisher's Exact Test (Optional).
The r x k Contingency Table.
Applicability of Methods.
Confidence Interval for a Difference Between Proportions.
Paired Data and 2 X 2 Tables (Optional).
Relative Risk and the Odds Ratio (Optional).
Summary of Chi-Squared Tests.
11. Comparing the Means of k Independent Samples.
Introduction.
The Basic Analysis of Variance.
The Analysis of Variance Model (Optional).
The Global F-Test.
Applicability of Methods.
Two-Way ANOVA (Optional).
Linear Combinations of Means (Optional).
Multiple Comparisons (Optional).
Perspective.
12. Linear Regression and Correlation.
Introduction.
The Fitted Regression Line.
Parametric Interpretation of Regression: The Linear Model.
Statistical Inference Concerning B1.
The Correlation Coefficient.
Guidelines for Interpreting Regression and Correlation.
Perspective.
Summary of Formulas.
13. A Summary of Inference Methods.
Introduction. Data Analysis Samples.
Appendices.
Chapter Notes.
Statistical Tables.
Answers to Selected Exercises.
Index.
Index of Examples.
Myra L. Samuels and Jeffrey A. Witmer
ISBN13: 978-0130413161For graduate or undergraduate courses in biology, agronomy, medical and health sciences, nutrition, pharmacy, animal science, physical education, forestry, and other life sciences.
With a strong emphasis on real data, exploratory data analysis, interpretation of results, and checking assumptions, this text clearly conveys the key concepts of statistics as applied to life sciences while incorporating tools and themes of modern data analysis. The authors' goal is to help students understand concepts not memorize formulas; they make liberal use of exercises, worked examples, and graphical methods to do so.
Features:
Author Bio
Samuels, Myra L. : Oberlin College
Witmer, Jeffrey A. :
Table of Contents
1. Introduction.
Statistics and the Life Sciences.
Examples and Overview.
2. Description of Populations and Samples.
Introduction.
Frequency Distributions: Techniques for Data. Frequency Distributions: Shapes and Examples. Descriptive Statistics: Measures of Center. Boxplots.
Measures of Dispersion.
Effect of Transformation of Variables (Optional).
Samples and Populations: Statistical Inference.
Perspective.
3. Random Sampling, Probability, and the Binomial Distribution.
Probability and the Life Sciences.
Random Sampling.
Introduction to Probability.
Probability Trees.
Probability Rules (Optional).
Density Curves.
Random Variables.
The Binomial Distribution.
Fitting a Binomial Distribution to Data (Optional).
4. The Normal Distribution.
Introduction.
The Normal Curves.
Areas Under a Normal Curve.
Assessing Normality.
The Continuity Correction (Optional).
Perspective.
5. Sampling Distributions.
Basic Ideas.
Dichotomous Observations.
Quantitative Observations.
Illustration of the Central Limit Theorem (Optional).
The Normal Approximation to the Binomial Distribution (Optional).
Perspective.
6. Confidence Intervals.
Statistical Estimation.
Standard Error of the Mean.
Confidence Interval.
Planning a Study to Estimate.
Conditions for Validity of Estimation Methods.
Confidence Interval for a Population Proportion.
Perspective and Summary.
7. Comparison of Two Independent Samples.
Introduction.
Standard Error of (y1 - y2).
Confidence Interval.
Hypothesis Testing: The t-test.
Further Discussion of the t-test.
One-Tailed Tests.
More on Interpretation of Statistical Significance.
Planning for Adequate Power (Optional).
Student's t: Conditions and Summary.
More on Principles of Testing Hypotheses.
The Wilcoxon-Mann-Whitney Test.
Perspective.
8. Statistical Principles of Design.
Introduction.
Observational Studies.
Experiments.
Restricted Randomization: Blocking and Stratification.
Levels of Replication.
Sampling Concerns (Optional).
Perspective.
9. Comparison of Paired Samples.
Introduction.
The Paired-Sample t-Test and Confidence Interval.
The Paired Design.
The Sign Test.
The Wilcoxon Signed-Rank Test.
Further Considerations in Paired Experiments.
Perspective.
10. Analysis of Categorical Data.
Inference for Proportions: The Chi-Squared Goodness-of-Fit Test.
The Chi-Squared Test for a 2 X 2 Contingency Table.
Independence and Association in a 2 X 2 Contingency Table.
Fisher's Exact Test (Optional).
The r x k Contingency Table.
Applicability of Methods.
Confidence Interval for a Difference Between Proportions.
Paired Data and 2 X 2 Tables (Optional).
Relative Risk and the Odds Ratio (Optional).
Summary of Chi-Squared Tests.
11. Comparing the Means of k Independent Samples.
Introduction.
The Basic Analysis of Variance.
The Analysis of Variance Model (Optional).
The Global F-Test.
Applicability of Methods.
Two-Way ANOVA (Optional).
Linear Combinations of Means (Optional).
Multiple Comparisons (Optional).
Perspective.
12. Linear Regression and Correlation.
Introduction.
The Fitted Regression Line.
Parametric Interpretation of Regression: The Linear Model.
Statistical Inference Concerning B1.
The Correlation Coefficient.
Guidelines for Interpreting Regression and Correlation.
Perspective.
Summary of Formulas.
13. A Summary of Inference Methods.
Introduction. Data Analysis Samples.
Appendices.
Chapter Notes.
Statistical Tables.
Answers to Selected Exercises.
Index.
Index of Examples.