Test bank for Biology: Life on Earth 9th 0321598474

Instant download Test bank for Biology: Life on Earth 9th 0321598474 pdf docx epub after payment.

Product details:

• ISBN-10 ‏ : ‎ 0321598474
• ISBN-13 ‏ : ‎ 978-0321598479
• Author: Terry and Gerry Audesirk; Bruce E. Byers

The fully revised Biology: Life on Earth, Ninth Edition, has the same friendly writing style appreciated by thousands of students, but with greater emphasis on engaging, real-world applications. New to this edition are “Case Study Continued” sections, which connect a chapter’s case study to relevant biological topics covered in the chapter, and “Have you ever wondered?” features that respond to commonly asked questions from students. Thoroughly revised illustrations and expanded critical thinking questions have been added to each chapter and are supplemented by the powerful new MasteringBiology^™ program that helps you make effective use of your study time outside of the classroom.

Table of contents:

An Introduction to Life on Earth

1(18)

Case Study Are Viruses Alive?

1(1)

How Do Scientists Study Life?

2(7)

Life Can Be Studied at Different Levels

2(2)

Scientific Principles Underlie All Scientific Inquiry

4(1)

The Scientific Method is the Basis for Scientific Inquiry

4(2)

Scientific Inquiry Controlled Experiments, Then and Now

6(2)

Communication is Crucial to Science

8(1)

Science is a Human Endeavor

8(1)

Scientific Theories Have Been Thoroughly Tested

8(1)

Evolution: The Unifying Theory of Biology

9(2)

Three Natural Processes Underlie Evolution

9(2)

What are the Characteristics of Living Things?

11(3)

Living Things are Complex, Organized, and Composed of Cells

11(1)

Earth Watch Why Preserve Biodiversity?

12(1)

Living Things Maintain Relatively Constant Internal Conditions Through Homeostasis

13(1)

Living Things Respond to Stimuli

13(1)

Living Things Acquire and Use Materials and Energy

13(1)

Living Things Grow

13(1)

Living Things Reproduce Themselves

13(1)

Living Things, Collectively, Have the Capacity to Evolve

14(1)

Case Study Continued Are Viruses Alive?

14(1)

How Do Scientists Categorize the Diversity of Life?

14(5)

The Domains Bacteria and Archaea Consist of Prokaryotic Cells; the Domain Eukarya is Composed of Eukaryotic Cells

15(1)

Bacteria and Archaea are Mostly Unicellular; Members of the Kingdoms Fungi, Plantae, and Animalia are Nearly All Multicellular

15(1)

Members of the Different Kingdoms Have Different Ways of Acquiring Energy

16(1)

Case Study Continued Are Viruses Alive?

16(1)

Links to Everyday Life Knowledge of Biology Illuminates Life

16(1)

Case Study Revisited Are Viruses Alive?

17(2)

Unit 1 The Life of a Cell

19(124)

Atoms, Molecules, and Life

20(16)

Case Study Crushed by Ice

20(1)

What Are Atoms?

21(3)

Atoms, the Basic Structural Units of Elements, are Composed of Still Smaller Particles

21(2)

Scientific Inquiry Radioactivity in Research

23(1)

How Do Atoms Interact to Form Molecules?

24(4)

Atoms Interact with Other Atoms When There are Vacancies in Their Outermost Electron Shells

24(1)

Free Radicals are Highly Reactive and Can Damage Cells

24(1)

Links to Everyday Life Hmm … What Gas Should I Use to Inflate My Blimp—Or Fill My Car?

25(1)

Chemical Bonds Hold Atoms Together in Molecules

25(1)

Ionic Bonds Form Among Charged Atoms Called Ions

25(1)

Health Watch Might Chocolate Actually Be Good for You?

26(1)

Covalent Bonds Form Between Uncharged Atoms That Share Electrons

27(1)

Hydrogen Bonds are Attractive Forces Between Polar Molecules

27(1)

Why is Water So Important to Life?

28(8)

Water Molecules Attract One Another

28(1)

Water Interacts with Many Other Molecules

29(1)

Case Study Continued Crushed by Ice

30(1)

Water-Based Solutions Can Be Acidic, Basic, or Neutral

30(2)

Water Moderates the Effects of Temperature Changes

32(1)

Case Study Continued Crushed by Ice

33(1)

Water Forms an Unusual Solid: Ice

33(1)

Case Study Revisited Crushed by Ice

33(3)

Biological Molecules

36(19)

Case Study Puzzling Proteins

36(1)

Why is Carbon So Important in Biological Molecules?

37(1)

How are Organic Molecules Synthesized?

37(1)

Biological Polymers are Formed by Removing Water and Split Apart by Adding Water

38(1)

What are Carbohydrates?

38(5)

There are Several Monosaccharides with Slightly Different Structures

39(1)

Disaccharides Consist of Two Single Sugars Linked by Dehydration Synthesis

40(1)

Polysaccharides are Chains of Single Sugars

41(1)

Links to Everyday Life Fake Foods

41(2)

What are Lipids?

43(2)

Oils, Fats, and Waxes are Lipids Containing Only Carbon, Hydrogen, and Oxygen

43(1)

Phospholipids Have Water-Soluble “Heads” and Water-Insoluble “Tails”

44(1)

Steroids Consist of Four Carbon Rings Fused Together

44(1)

What are Proteins?

45(6)

Health Watch Cholesterol, Trans Fats, and Your Heart

46(1)

Proteins are Formed from Chains of Amino Acids

47(1)

Amino Acids are Joined to Form Chains by Dehydration Synthesis

47(1)

A Protein Can Have Up to Four Levels of Structure

48(1)

Case Study Continued Puzzling Proteins

48(2)

A Closer Look At Proteins and Hair Texture

50(1)

The Functions of Proteins are Related to Their Three-Dimensional Structures

51(1)

What are Nucleotides and Nucleic Acids?

51(4)

Nucleotides Act as Energy Carriers and Intracellular Messengers

51(1)

DNA and RNA, the Molecules of Heredity, are Nucleic Acids

51(1)

Case Study Continued Puzzling Proteins

52(1)

Case Study Revisited Puzzling Proteins

52(3)

Cell Structure and Function

55(22)

Case Study Spare Parts for Human Bodies

55(1)

What is the Cell Theory?

56(1)

What are the Basic Attributes of Cells?

56(6)

Cell Function Limits Cell Size

56(1)

All Cells Share Common Features

56(2)

Scientific Inquiry The Search for the Cell

58(2)

Case Study Continued Spare Parts for Human Bodies

60(2)

There are Two Basic Types of Cells: Prokaryotic and Eukaryotic

62(1)

What are the Major Features of Eukaryotic Cells?

62(10)

Some Eukaryotic Cells are Supported by Cell Walls

63(1)

The Cytoskeleton Provides Shape, Support, and Movement

63(1)

Cilia and Flagella Move the Cell Through Fluid or Move Fluid Past the Cell

64(1)

The Nucleus is the Control Center of the Eukaryotic Cell

65(2)

Case Study Continued Spare Parts for Human Bodies

67(1)

Eukaryotic Cytoplasm Includes an Elaborate System of Membranes

67(3)

Vacuoles Serve Many Functions, Including Water Regulation, Support, and Storage

70(1)

Mitochondria Extract Energy from Food Molecules, and Chloroplasts Capture Solar Energy

70(2)

Plants Use Plastids for Storage

72(1)

What are the Major Features of Prokaryotic Cells?

72(5)

Prokaryotic Cells are Relatively Small and Possess Specialized Surface Features

72(1)

Prokaryotic Cells Have Fewer Specialized Structures Within Their Cytoplasm

73(1)

Links to Everyday Life Unwanted Guests

74(1)

Case Study Revisited Spare Parts for Human Bodies

74(3)

Cell Membrane Structure and Function

77(20)

Case Study Vicious Venoms

77(1)

How is the Structure of a Membrane Related to Its Function?

78(4)

Cell Membranes Isolate the Cell Contents While Allowing Communication with the Environment

78(1)

Membranes are “Fluid Mosaics” in Which Proteins Move Within Layers of Lipids

78(1)

The Phospholipid Bilayer is the Fluid Portion of the Membrane

78(2)

A Closer Look At Form, Function, and Phospholipids

80(1)

Case Study Continued Vicious Venoms

81(1)

A Variety of Proteins Form a Mosaic Within the Membrane

81(1)

How Do Substances Move Across Membranes?

82(10)

Molecules in Fluids Move in Response to Gradients

82(1)

Movement Through Membranes Occurs by Passive Transport and Energy-Requiring Transport

83(1)

Passive Transport Includes Simple Diffusion, Facilitated Diffusion, and Osmosis

84(2)

Scientific Inquiry The Discovery of Aquaporins

86(1)

Energy-Requiring Transport Includes Active Transport, Endocytosis, and Exocytosis

87(3)

Exchange of Materials Across Membranes Influences Cell Size and Shape

90(2)

How Do Specialized Junctions Allow Cells to Connect and Communicate?

92(5)

Desmosomes Attach Cells Together

92(1)

Tight Junctions Make Cell Attachments Leakproof

93(1)

Gap Junctions and Plasmodesmata Allow Direct Communication Between Cells

93(1)

Case Study Revisited Vicious Venoms

94(3)

Energy Flow in the Life of a Cell

97(15)

Case Study Energy Unleashed

97(1)

What is Energy?

98(2)

The Laws of Thermodynamics Describe the Basic Properties of Energy

99(1)

Case Study Continued Energy Unleashed

99(1)

Living Things Use the Energy of Sunlight to Create the Low-Entropy Conditions of Life

99(1)

How Does Energy Flow in Chemical Reactions?

100(1)

Exergonic Reactions Release Energy

100(1)

Case Study Continued Energy Unleashed

101(1)

Endergonic Reactions Require a Net Input of Energy

101(1)

How is Energy Transported Within Cells?

101(2)

ATP is the Principal Energy Carrier in Cells

101(1)

Electron Carriers Also Transport Energy Within Cells

102(1)

Coupled Reactions Link Exergonic with Endergonic Reactions

102(1)

How Do Enzymes Promote Biochemical Reactions?

103(2)

At Body Temperatures, Spontaneous Reactions Proceed Too Slowly to Sustain Life

103(1)

Catalysts Reduce Activation Energy

103(1)

Enzymes Are Biological Catalysts

103(2)

How Do Cells Regulate Their Metabolic Reactions

105(7)

Reaction Rates Tend to Increase as Substrate or Enzyme Levels Increase

105(1)

Case Study Continued Energy Unleashed

105(1)

Cells Regulate Enzyme Synthesis

105(1)

Cells Regulate Enzyme Activity

106(1)

Health Watch Lacking an Enzyme Can Lead to Lactose Intolerance or Phenylketonuria

106(1)

Poisons, Drugs, and Environmental Conditions Influence Enzyme Activity

107(2)

Case Study Revisited Energy Unleashed

109(3)

Capturing Solar Energy: Photosynthesis

112(15)

Case Study Did the Dinosaurs Die from Lack of Sunlight?

112(1)

What is Photosynthesis?

113(3)

Leaves and Chloroplasts are Adaptations for Photosynthesis

113(1)

Photosynthesis Consists of the Light Reactions and the Calvin Cycle

114(1)

Case Study Continued Did the Dinosaurs Die from Lack of Sunlight?

115(1)

Light Reactions: How is Light Energy Converted to Chemical Energy?

116(4)

Light is Captured by Pigments in Chloroplasts

116(1)

The Light Reactions Occur in Association with the Thylakoid Membranes

117(3)

The Calvin Cycle: How is Chemical Energy Stored in Sugar Molecules?

120(2)

The Calvin Cycle Captures Carbon Dioxide

120(1)

Case Study Continued Did the Dinosaurs Die from Lack of Sunlight?

120(1)

Carbon Fixed During the Calvin Cycle is Used to Synthesize Sugar

121(1)

Why Do Some Plants Use Alternate Pathways for Carbon Fixation?

122(5)

People also search:

Biology: Life on Earth 9th pdf

Biology: Life on Earth 9th

Biology: Life on Earth

biology life on earth with physiology

history of life on earth biology

how animals survive earth and life science