Solution Manual for Introduction to Biomedical Engineering 2nd Edition by Domach

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Product details:

• ISBN-10 ‏ : ‎ 0136020038
• ISBN-13 ‏ : ‎ 978-0136020035
• Author: Michael M. Domach

Substantial yet reader-friendly, this introduction examines the living system from the molecular to the human scale–presenting bioengineering practice via some of the best engineering designs provided by nature, from a variety of perspectives. Domach makes the field more accessible, helping readers to pick up the jargon and determine where their skill sets may fit in. KEY TOPICS: Cellular and Molecular Building Blocks of Living Systems; Mass Conservation, Cycling, and Kinetics; Requirements and Features of a Functional and Coordinated System; Bioenergetics; Molecular Basis of Catalysis and Regulation; Analysis of Molecular Binding Phenomena; Applications and Design in Biomolecular Technology; Metabolic and Tissue Engineering; Primer on Tissues and Organs; Biomechanics; Biofluid Mechanics; Biomaterials; Pharmacokinetics; Noninvasive Sensing and Signal Processing. MARKET: A useful resource for anyone interested in join

Table Of Contents:

PART I: OVERVIEW OF BIOENGINEERING AND MODERN BIOLOGY

1(34)

What Is Bioengineering?

3(16)

Purpose of This Chapter

3(1)

Engineering versus Science

4(1)

Bioengineering

4(7)

Career Opportunities

11(4)

Further Consideration of the Ethical Dimensions of Bioengineering

15(4)

Cellular, Elemental, and Molecular Building Blocks of Living Systems

19(16)

Purpose of This Chapter

19(1)

Origins and Divergence of Basic Cell Types

20(3)

Elemental and Molecular Composition of a Cell

23(2)

Molecules That Contain Information

25(3)

Unique versus Interchangeable Parts Leads to Molecular-Based Classification

28(1)

Cellular Anatomy

29(1)

Cellular Physiological Lifestyles

30(1)

Viruses

31(1)

Prions

31(4)

PART II: SYSTEM PRINCIPLES OF LIVING SYSTEMS

35(64)

Mass Conservation, Cycling, and Kinetics

37(21)

Purpose of This Chapter

37(2)

Open versus Closed Systems

39(1)

Steady State versus Unsteady State

39(1)

Approaches to Performing Mass Balances

40(4)

Recycle, Bypass, and Purge

44(3)

Kinetics

47(3)

Unsteady-State Mass Balances

50(3)

Review of Moles, Molecular Formulas, and Gas Compositions

53(5)

Requirements and Features of a Functional and Coordinated System

58(12)

Purpose of This Chapter

58(1)

Chemical Reaction Rate Acceleration

59(2)

Energy Investment to Provide Driving Forces for Nonspontaneous Processes

61(2)

Control and Communication Systems

63(7)

Bioenergetics

70(29)

Purpose of This Chapter

72(1)

Bioenergetic Units

72(1)

Sensible versus Latent Heat

73(1)

The First Law of Thermodynamics Works on All Scales

73(1)

Using the First Law in Energy Balancing

74(1)

Bioenergetics at the Human Scale

74(6)

How Energy Is Produced, Stored, and Transduced at the Cellular Level

80(5)

Representative Energetic Values at the Cellular Level

85(1)

More Sophisticated Chemical Energy Accounting (Optional)

86(3)

Electrochemical Potential Calculation Examples and Applications (Optional)

89(4)

Why Coupling between Energy Evolving Reactions and ATP Formation Is Imperfect (Optional)

93(1)

Biological and Medical Applications of Membrane Energetization

94(5)

PART III: BIOMOLECULAR AND CELLULAR FUNDAMENTALS AND ENGINEERING APPLICATIONS

99(74)

Molecular Basis of Catalysis and Regulation

101(10)

Purpose of This Chapter

102(1)

Binding in the Biological Context

102(1)

Binding Is Dynamic

103(1)

Different Venues in Which Binding Operates

104(7)

Analysis of Molecular Binding Phenomena

111(17)

Purpose of This Chapter

111(1)

General Strategy for Problem Formulation and Solution

112(2)

Analysis of a Single Ligand-Single Binding Site System

114(2)

How to Decide What the Free Ligand Concentration Is

116(1)

Examples of Binding Calculations

117(1)

Analysis of Binding When Enzyme Catalysis Occurs

117(3)

A Protein with Multiple Binding Sites

120(3)

Further Thoughts on How Living Systems Are Designed and Function

123(5)

Applications and Design in Biomolecular Technology

128(16)

Purpose of This Chapter

128(1)

Binding Applications

129(3)

Enzyme Catalysis Application

132(6)

Using Enzymes in Food Processing

138(1)

Bioresource Engineering

138(1)

Immobilized Enzymes in Chemical Weapon Defense and Toxic Chemical Destruction

139(5)

Cellular Technologies and Bioinformatics Basics

144(29)

Purpose of This Chapter

144(1)

Microbial Metabolic Engineering

145(9)

Tissue Engineering

154(6)

Gene Theraphy and DNA Vaccines

160(1)

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