1439376335|kathit|Section 13.R Exercise 14: mRNA||||19|| 1439376314|kathit|Section 13.R Exercise 13: Damselflies||||19|| 1439376295|kathit|Section 13.R Exercise 12: Red blood cell count||||19|| 1439376277|kathit|Section 13.R Exercise 10: Carbohydrates||||19|| 1439376256|kathit|Section 13.R Exercise 9: Crop rotation||||19|| 1439376235|kathit|Section 13.R Exercise 8: mRNA||||19|| 1439376217|kathit|Section 13.R Exercise 7: Damselflies||||19|| 1439376198|kathit|Section 13.R Exercise 6: Red blood cell count||||19|| 1439375866|kathit|Section 13.3 Exercise 14: Pesticides and bees||||19|| 1439375848|kathit|Section 13.3 Exercise 13: High-density lipoprotein (HDL) cholesterol||||19|| 1439375829|kathit|Section 13.3 Exercise 12: Fish morphology||||19|| 1439375810|kathit|Section 13.3 Exercise 11: HAART||||19|| 1439375790|kathit|Section 13.3 Exercise 10: Antibiotic MIC||||19|| 1439376149|kathit|Section 13.3 Exercise 9: Monarch butterflies||||19|| 1439376129|kathit|Section 13.3 Exercise 8: Breast cancer||||19|| 1439376108|kathit|Section 13.3 Exercise 7: Huntington's disease||||19|| 1439375770|kathit|Section 13.3 Example 7: Anemia||||19|| 1439376085|kathit|Section 13.3 Exercise 6: Coral bleaching||||19|| 1439375747|kathit|Section 13.3 Example 6: EPO||||19|| 1439376065|kathit|Section 13.3 Exercise 5: Anemia||||19|| 1439375925|kathit|Section 13.3 Exercise 4: Damselflies||||19|| 1439375721|kathit|Section 13.3 Example 4: Heart rates||||19|| 1439375907|kathit|Section 13.3 Exercise 3: Hospital stays||||19|| 1439375888|kathit|Section 13.3 Exercise 2: Multiple sclerosis||||19|| 1439375681|kathit|Section 13.3 Example 2: EPO||||19|| 1439375701|kathit|Section 13.3 Exercise 1: Weddell seals||||19|| 1439375657|kathit|Section 13.3 Example 1: Heart rates||||19|| 1439374935|kathit|Section 13.2 Exercise 14: Pesticides and bees||||19|| 1439374881|kathit|Section 13.2 Exercise 13: High-density lipoprotein (HDL) cholesterol||||19|| 1439374840|kathit|Section 13.2 Exercise 12: Fish morphology||||19|| 1439374807|kathit|Section 13.2 Exercise 11: HAART||||19|| 1439374773|kathit|Section 13.2 Exercise 10: Antibiotic MIC||||19|| 1439375549|kathit|Section 13.2 Exercise 9: Breast cancer||||19|| 1439375532|kathit|Section 13.2 Exercise 8: Damselflies||||19|| 1439375511|kathit|Section 13.2 Exercise 7: Huntington's disease||||19|| 1439375482|kathit|Section 13.2 Exercise 6: Monarch butterflies||||19|| 1439375462|kathit|Section 13.2 Exercise 5: Coral bleaching||||19|| 1439375441|kathit|Section 13.2 Exercise 4: Anemia||||19|| 1439374715|kathit|Section 13.2 Example 4: EPO||||19|| 1439375417|kathit|Section 13.2 Exercise 3: Hospital stays||||19|| 1439374972|kathit|Section 13.2 Exercise 2: Multiple sclerosis||||19|| 1439374683|kathit|Section 13.2 Exercise 1: Weddell seals||||19|| 1439374646|kathit|Section 13.1 Exercise 24: Monarch butterflies||||19|| 1439374600|kathit|Section 13.1 Exercise 23: Huntington's disease||||19|| 1439374570|kathit|Section 13.1 Exercise 22: Damselflies||||19|| 1439374531|kathit|Section 13.1 Exercise 21: Hospital stays||||19|| 1439366962|kathit|Section 13.1 Exercise 20: Multiple sclerosis||||19|| 1439301154|kathit|Section 12.3 Example 13: Color blindness||||18|| 1439301040|kathit|Section 12.3 Example 10: Color blindness||||18|| 1439300997|kathit|Section 12.3 Example 5: Muscular dystrophy||||18|| 1439300966|kathit|Section 12.3 Example 4: Annual human mortality||||18|| 1433258375|kathit|Section 13.1 Exercise 19: Weddell seals||||19|| 1433258358|kathit|Section 12.2 Example 10: Annual human mortality||||18|| 1433258214|kathit|Section 11.R Exercise 24: Olympic times||||17|| 1433258199|kathit|Section 11.R Exercise 23: Paternal age and mutations||||17|| 1433258156|kathit|Section 11.R Exercise 22: Chickadee alarm calls||||17|| 1433258141|kathit|Section 11.R Exercise 21: Brain size and intelligence||||17|| 1433258116|kathit|Section 11.R Exercise 20: Carbohydrates||||17|| 1433258101|kathit|Section 11.R Exercise 19: Crop rotation||||17|| 1433258085|kathit|Section 11.R Exercise 9: Population size||||17|| 1433258036|kathit|Section 11.R Exercise 4: mRNA||||17|| 1433258020|kathit|Section 11.R Exercise 3: Damselflies||||17|| 1433258005|kathit|Section 11.R Exercise 2: Red blood cell count||||17|| 1433257968|kathit|Section 11.R Exercise 1: Pollination||||17|| 1433257951|kathit|Section 11.3 Exercise 25: Yeast population growth||||17|| 1433257903|kathit|Section 11.3 Exercise 24: Yeast population growth||||17|| 1433257886|kathit|Section 11.3 Exercise 23: Climate change and hibernation||||17|| 1433257869|kathit|Section 11.3 Exercise 22: Breast cancer||||17|| 1433257851|kathit|Section 11.3 Exercise 21: Coral bleaching||||17|| 1433257829|kathit|Section 11.3 Exercise 20: Huntington's disease||||17|| 1433257815|kathit|Section 11.3 Exercise 19: HAART||||17|| 1433257760|kathit|Section 11.3 Exercise 18: EPO||||17|| 1433257377|kathit|Section 11.3 Exercise 15: Damselfly morphology||||17|| 1433257339|kathit|Section 11.3 Exercise 14: Huntington's disease||||17|| 1433257269|kathit|Section 11.3 Exercise 13: Coral bleaching||||17|| 1433257106|kathit|Section 11.3 Exercise 12: Phytoplankton growth||||17|| 1433257090|kathit|Section 11.3 Exercise 11: High-density lipoprotein (HDL) cholesterol||||17|| 1433257068|kathit|Section 11.3 Exercise 10: Pesticides and bees||||17|| 1433257052|kathit|Section 11.3 Exercise 9: Fish morphology||||17|| 1433256986|kathit|Section 11.3 Exercise 8: HAART||||17|| 1433256968|kathit|Section 11.3 Exercise 7: EPO||||17|| 1433256949|kathit|Section 11.3 Example 4: Smoking and mortality rates||||17|| 1433256933|kathit|Section 11.3 Example 3: Smoking and mortality rates||||17|| 1433256922|kathit|Section 11.2 Exercise 26: HAART||||17|| 1433256894|kathit|Section 11.2 Exercise 25: Monarch butterflies||||17|| 1433256877|kathit|Section 11.2 Exercise 24: Coral bleaching||||17|| 1433256860|kathit|Section 11.2 Exercise 23: Anemia||||17|| 1433256834|kathit|Section 11.2 Exercise 22: Multiple sclerosis||||17|| 1433256818|kathit|Section 11.2 Exercise 21: Weddell seals||||17|| 1433256802|kathit|Section 11.2 Exercise 18: HAART||||17|| 1433256788|kathit|Section 11.2 Exercise 17: Breast cancer||||17|| 1433256756|kathit|Section 11.2 Exercise 16: Monarch butterflies||||17|| 1433256737|kathit|Section 11.2 Exercise 15: Huntington's disease||||17|| 1433256720|kathit|Section 11.2 Exercise 14: Coral bleaching||||17|| 1433256703|kathit|Section 11.2 Exercise 13: Anemia||||17|| 1433256685|kathit|Section 11.2 Exercise 12: Damselflies||||17|| 1433256644|kathit|Section 11.2 Exercise 11: Hospital stays||||17|| 1433256623|kathit|Section 11.2 Exercise 10: Multiple sclerosis||||17|| 1433256586|kathit|Section 11.2 Exercise 9: Weddell seals||||17|| 1433256555|kathit|Section 11.2 Example 4: EPO usage by athletes||||17|| 1433256523|kathit|Section 11.2 Example 3: Heart rates||||17|| 1433256500|kathit|Section 11.1 Exercise 20: HAART||||17|| 1433256478|kathit|Section 11.1 Exercise 18: Multiple sclerosis||||17|| 1433256459|kathit|Section 11.1 Exercise 17: Anemia||||17|| 1433256433|kathit|Section 11.1 Exercise 16: Hospital stays||||17|| 1433256418|kathit|Section 11.1 Exercise 14: Huntington's disease||||17|| 1433256395|kathit|Section 11.1 Exercise 13: Antibiotic MIC||||17|| 1433256352|kathit|Section 11.1 Exercise 12: Breast cancer||||17|| 1433256324|kathit|Section 11.1 Exercise 11: Coral bleaching||||17|| 1433256266|kathit|Section 11.1 Exercise 10: Clostridium difficile||||17|| 1433256245|kathit|Section 11.1 Exercise 9: Damselflies||||17|| 1433256229|kathit|Section 11.1 Exercise 8: Monarch butterflies||||17|| 1433256173|kathit|Section 11.1 Exercise 7: Weddell seals||||17|| 1433256138|kathit|Section 11.1 Example 4: Antibiotic effectiveness||||17|| 1433255961|kathit|Section 11.1 Example 2: Cuckoo bird egg size||||17|| 1433248456|kathit|Section|
All biological background material for Chapter 10 is included in the main text of the book.|||16|| 1433248155|kathit|Section 9.6 Example 6: Snake reversals and stripes||||15|| 1433248134|kathit|Section 9.5 Example 5: Snake reversals and stripes||||15|| 1433248113|kathit|Section 9.4 Example 6: Infectious disease outbreak size||||15|| 1433248092|kathit|Section 9.4 Example 2: Tuna biomass||||15|| 1433248074|kathit|Section 9.2 Example 5: Infectious disease control||||15|| 1433248053|kathit|Section 9.1 Example 12: Infectious disease control||||15|| 1433247512|kathit|Section 8.8 Example 5: Age structured and the Leslie matrix||||14|| 1433247489|kathit|Section 8.8 Example 3: Class-structured population dynamics||||14|| 1433247463|kathit|Section 8.5 Example 1: Conservation biology of right whales||||14|| 1433247568|kathit|Section 8.3b Project: Vaccine Escape||||14|| 1433247542|kathit|Section 8.3a Project: Microarray Analysis of Genome Expression||||14|| 1433247440|kathit|Section 8.3 Example 7: Vectorcardiography and Einthoven's triangle||||14|| 1433247414|kathit|Section 8.3 Example 4: Using the dot product for biological discovery||||14|| 1433247393|kathit|Section 8.2 Example 3: Antigenic cartography (continued)||||14|| 1433247353|kathit|Section 8.2 Example 2: Antigenic cartography (continued)||||14|| 1433247329|kathit|Section 8.2 Example 1: Antigenic cartography (continued)||||14|| 1433247308|kathit|Section 8.1 Example 8: Antigenic cartography (continued)||||14|| 1408696159|kathit|Section 8.1 Example 6: Antigenic cartography (continued)||||14|| 1408696139|kathit|Section 8.1 Example 3: Antigenic cartography||||14|| 1408696121|kathit|Section 8.1 Example 2: Genome expression profiles||||14|| 1414670094|kathit|Section 7.2 Project: Catastrophic Population Collapse: An Introduction to Bifurcation Theory||||13|| 1414670069|kathit|Section 7.2 Example 6: The Allee effect||||13|| 1414670011|kathit|Section 7.2 Example 3: The Allee effect||||13|| 1414669960|kathit|Section 7.1 Text Page 423: Yeast Population Growth||||13|| 1414669797|kathit|Section 7.1 Text Page 421: Models of Population Growth||||13|| 1414669902|kathit|Section 7.1 Project: Chaotic Blowflies and the Dynamics of Populations||||13|| 1408696107|kathit|Section 7.1 Example 2: Modeling intravenous drug delivery||||13|| 1408696086|kathit|Section 6.1 Project: Disease Progression and Immunity||||12|| 1412744740|kathit|Section 5.8 Exercise 26: Spread of drug use||||11|| 1412744526|kathit|Section 5.6 Exercise 24: Sterile insect technique||||11|| 1412744502|kathit|Section 5.6 Example 2: Logistic model||||11|| 1408696045|kathit|Section 5.3 Project: The Outbreak Size of an Infectious Disease||||11|| 1411711406|kathit|Section 4.5 Example 5: Ricker equation||||10|| 1411711387|kathit|Section 4.5 Example 4: Logistic difference equation||||10|| 1411711370|kathit|Section 4.5 Example 3: Drug concentration||||10|| 1411711351|kathit|Section 4.4 Example 5: Sustainable harvesting||||10|| 1411711335|kathit|Section 4.4 Example 4: Aquatic birds||||10|| 1411711314|kathit|Section 4.4 Example 2: Nectar foraging by bumblebees||||10|| 1411711295|kathit|Section 4.2 Example 6: Risk aversion in junco foraging||||10|| 1411711278|kathit|Section 4.2 Example 5: Species-area relationship||||10|| 1411711261|kathit|Section 4.2 Example 2: Compensatory growth||||10|| 1411711235|kathit|Section 4.1 Example 6: The Allee effect||||10|| 1408696026|kathit|Section 4.1 Example 4: Electrocardiogram||||10|| 1411709968|kathit|Section 3.8 Project: Harvesting Renewable Resources||||9|| 1411709948|kathit|Section 3.5 Example 14: Growth of a tumor||||9|| 1411709929|kathit|Section 3.5 Example 13: Infectious disease outbreak size||||9|| 1411709910|kathit|Section 3.5 Example 8: Gause's logistic model||||9|| 1411709889|kathit|Section 3.4 Example 5: The Monod growth function||||9|| 1411709816|kathit|Section 3.3 Example 5: Anesthesiology||||9|| 1411709523|kathit|Section 3.2 Example 7: Metabolic power in walking and running||||9|| 1408695827|kathit|Section 3.1 Example 7: Malarial parasites||||9|| 1400339345|kathit|Section 2.5 Example 9: Population harvesting and collapse||||8|| 1400339325|kathit|Section 2.5 Example 4: Population harvesting and collapse||||8|| 1400339291|kathit|Section 2.3 Example 10: Anesthesiology||||8|| 1400339309|kathit|Section 2.3 Example 7: Catastrophic population collapse||||8|| 1400339273|kathit|Section 2.2 Example 8: Gause's logistic model||||8|| 1400339252|kathit|Section 2.2 Example 4: The Monod growth function||||8|| 1400339214|kathit|Section 2.2 Example 1: The Monod growth function||||8|| 1399979318|kathit|Section 2.1 Example 8: Logistic difference equation||||8|| 1399979226|kathit|Section 2.1 Example 5: Drug concentration||||8|| 1400315349|kathit|Section 1.R Exercise 23: Life expectancy||||7|| 1400315330|kathit|Section 1.6 Text P73: Discrete-Time Models in the Life Sciences||||7|| 1400315315|kathit|Section 1.6 Project: Drug Resistance in Malaria||||7|| 1400315295|kathit|Section 1.6 Example 6: Maintaining cerebrospinal pressure||||7|| 1400315275|kathit|Section 1.6 Example 5: Logistic difference equation||||7|| 1400315234|kathit|Section 1.5 Project: The Coding Function of DNA||||7|| 1400315255|kathit|Section 1.5 Exercise 66: Why is the dodo extinct?||||7|| 1400315157|kathit|Section 1.5 Example 14: Species richness in bat caves||||7|| 1400315134|kathit|Section 1.4 Example 3: World population growth||||7|| 1397198306|kathit|Section 1.3 Project: The Biomechanics of Human Movement||||7|| 1400315107|kathit|Section 1.3 Example 7: Antibiotic dosage||||7|| 1397198250|kathit|Section 1.2 Exercise 27: Fish growth||||7|| 1400315087|kathit|Section 1.2 Example 6: Species richness in bat caves||||7|| 1400315062|kathit|Section 1.2 Example 5: Anesthesiology||||7|| 1397198198|kathit|Section 1.2 Example 2: Carbon dioxide in the atmosphere||||7|| 1400315042|kathit|Section 1.1 Example 13: Malarial fever||||7|| 1400315023|kathit|Section 1.1 Example 10: Metabolic power in walking and running||||7|| 1397198158|kathit|Section 1.1 Example 6: Bone mass||||7|| 1145211589|dusan|Additional Examples|Case Studies in Mathematical Modeling

Case Study 1: Kill Curves and Antibiotic Effectiveness

Case Study 2: Hosts, Parasites, and Time-Travel|||6|| 1090820133|default|Instructor Area|Coming soon...|||5|| 1080255884|default|Book Supplements|Miscellaneous resources for students and teachers.
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Student Resources

Enhanced WebAssign®

Printed Access Code ISBN: 978-1-285-85826-5
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Enhanced WebAssign is designed for you to do your homework online. This proven and reliable system uses pedagogy and content found in this text, and then enhances it to help you learn calculus more effectively. Automatically graded homework allows you to focus on your learning and get interactive study assistance outside of class. Enhanced WebAssign for Biocalculus: Calculus, Probability, and Statistics for the Life Sciences, 1e contains the Cengage YouBook, an interactive ebook that contains animated figures, video clips, highlighting and note-taking features, and more!

CengageBrain.com
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Student Solutions Manual – 978-1-305-11406-7
Provides completely worked-out solutions to all odd-numbered exercises in the text, giving students a chance to check their answers and ensure they took the correct steps to arrive at an answer.

A Companion to Calculus
By Dennis Ebersole, Doris Schattschneider, Alicia Sevilla, and Kay Somers
ISBN 978-0-495-01124-8
Written to improve algebra and problem-solving skills of students taking a calculus course, every chapter in this companion is keyed to a calculus topic, providing conceptual background and specific algebra techniques needed to understand and solve calculus problems related to that topic. It is designed for calculus courses that integrate the review of precalculus concepts or for individual use. Order a copy of the text or access the eBook online at www.cengagebrain.com by searching the ISBN.

Linear Algebra for Calculus
by Konrad J. Heuvers, William P. Francis, John H. Kuisti,
Deborah F. Lockhart, Daniel S. Moak, and Gene M. Ortner
ISBN 978-0-534-25248-9
This comprehensive book, designed to supplement a calculus course, provides an introduction to and review of the basic ideas of linear algebra. Order a copy of the text or access the eBook online at www.cengagebrain.com by searching the ISBN.

Instructor Resources

Enhanced WebAssign®

Printed Access Code ISBN: 1-285-85826-3
Instant Access Code ISBN: 978-1-285-85825-8
Exclusively from Cengage Learning, Enhanced WebAssign offers an extensive online program for Biocalculus: Calculus, Probability, and Statistics for the Life Sciences, 1e to encourage the practice that is so critical for concept mastery. The meticulously crafted pedagogy and exercises in our proven texts become even more effective in Enhanced WebAssign, supplemented by multimedia tutorial support and immediate feedback as students complete their assignments. Key features include:

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Opportunities for students to review prerequisite skills and content both at the start of the course and at the beginning of each section

Read It eBook pages, Watch It Videos, Master It tutorials, and Chat About It links

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Cengage Customizable YouBook
YouBook is an eBook that is both interactive and customizable! Containing all the content from Biocalculus: Calculus, Probability, and Statistics for the Life Sciences, 1e, YouBook features a text edit tool that allows instructors to modify the textbook narrative as needed. With YouBook, instructors can quickly re-order entire sections and chapters or hide any content they don't teach to create an eBook that perfectly matches their syllabus. Instructors can further customize the text by adding instructor-created or YouTube video links. Additional media assets include: animated figures, video clips, highlighting and note-taking features, and more! YouBook is available within Enhanced WebAssign.

Complete Solutions Manual – 978-1-305-11407-4
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Instructor Companion Website (login.cengage.com)
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Fourier Series

Series
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Approximate Integration: Trapezoid Rule and Simpson's Rule

Double Integrals

First-Order Linear Differential Equations

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