ANNOTATED 3D MODEL COLLECTION
Chapter 1
Mathematical and Practical Skills in Biology
Activity # |
Title |
Weblinks Title |
2 |
3
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9 |
9 |
20 |
24 |
24 |
25 |
26 |
27 |
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Hypotheses and Predictions |
Types of Data
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Logs and Exponents |
Logs and Exponents |
Drawing Scatter Plots |
Mean, Median, and Mode |
Mean, Median, and Mode |
Spread of Data |
Interpreting Sample Variability |
Biological drawings |
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Chapter 2
Biological Molecules
Activity # |
Title |
Weblinks Title |
30 |
32 |
33 |
34 |
36 |
38 |
38 |
39 |
40 |
41
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41 |
42 |
42 |
43 |
43 |
43 |
44 |
45 |
45 |
45 |
45 |
45 |
46 |
47 |
48 |
48 |
48 |
49 |
49 |
50 |
51 |
51 |
51 |
52
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53 |
54 |
55 |
55 |
55
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55
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57 |
58 |
59
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62 |
62 |
63 |
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Organic Molecules |
The Common Ancestry of Life |
Sugars |
Condensation and Hydrolysis of Sugars |
Polysaccharides |
Lipids |
Lipids |
Phospholipids |
Amino Acids |
Chromatography
|
Chromatography |
Protein Shape is Related to Function |
Protein Shape is Related to Function |
Protein Structure |
Protein Structure |
Protein Structure |
Comparing Globular and Fibrous Proteins |
Biochemical Tests |
Biochemical Tests |
Biochemical Tests |
Biochemical Tests |
Biochemical Tests |
Enzymes |
How Enzymes Work |
Models of Enzyme Activity |
Models of Enzyme Activity |
Models of Enzyme Activity |
Enzyme Kinetics |
Enzyme Kinetics |
Investigating Enzyme Reaction Rates |
Enzyme Inhibiton |
Enzyme Inhibiton |
Enzyme Inhibiton |
Investigating Catalase Activity
|
Nucleotides |
Nucleic Acids |
Determining the Structure of DNA |
Determining the Structure of DNA |
Determining the Structure of DNA
|
Determining the Structure of DNA
|
DNA Replication |
Enzyme Control of DNA Replication |
Meselson and Stahl's Experiment
|
Water |
Water |
The Properties of Water |
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Chapter 3
Cells
Activity # |
Title |
Weblinks Title |
67 |
68 |
69 |
69 |
69 |
69
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70 |
71 |
72 |
73 |
74 |
74 |
75 |
77 |
78 |
78 |
79 |
80 |
81 |
82 |
83
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83 |
84 |
85 |
88 |
90 |
90 |
90 |
90 |
92 |
93 |
94
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95 |
96 |
97 |
97 |
100 |
100 |
101 |
102 |
105 |
106 |
107 |
108 |
109 |
110 |
111 |
111 |
112 |
112 |
112 |
113 |
113 |
114 |
114 |
116 |
117 |
118 |
119 |
|
The Cell is the Unit of Life |
Cell Sizes |
Bacterial Cells |
Bacterial Cells |
Bacterial Cells |
Bacterial Cells
|
Plant Cells |
Identifying Structures in a Plant Cell |
Animal Cells |
Identifying Structures in an Animal Cell |
Cell Structures and Organelles |
Cell Structures and Organelles |
Cell Fractionation |
Specialisation in Plant Cells |
Specialisation in Human Cells |
Specialisation in Human Cells |
Levels of Organisation |
Animal tissues |
Plant tissues |
Viruses |
Optical Microscopes
|
Optical Microscopes |
Preparing a Slide |
Staining a Slide |
Electron Microscopes |
Mitosis and the Cell Cycle |
Mitosis and the Cell Cycle |
Mitosis and the Cell Cycle |
Mitosis and the Cell Cycle |
Regulation of the Cell Cycle |
Cancer: Cells out of Control |
Binary Fission
|
Replication in Viruses |
The Role of Membranes in Cells |
The Structure of Membranes |
The Structure of Membranes |
Diffusion |
Diffusion |
Osmosis |
Water Movement in Plant Cells |
Active Transport |
Ion Pumps |
Exocytosis and Endocytosis |
Cell Recognition |
The Body's Defences |
Antigenic Variability |
The Action of Phagocytes |
The Action of Phagocytes |
The Immune System |
The Immune System |
The Immune System |
Clonal Selection |
Clonal Selection |
Antibodies |
Antibodies |
Vaccines and Vaccination |
Questions About Vaccination |
HIV/AIDS |
Monoclonal Antibodies |
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Chapter 4
Organisms exchange substances with their environment
Activity # |
Title |
Weblinks Title |
124 |
124 |
125 |
125 |
125 |
126 |
126 |
127
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128 |
128 |
129 |
129 |
129 |
129 |
130 |
130 |
131 |
131 |
132 |
135 |
138 |
138 |
140 |
140 |
141 |
142 |
144 |
145 |
146 |
147 |
148 |
149 |
150 |
151 |
151 |
152 |
152 |
152 |
152 |
153 |
159 |
159 |
160 |
161 |
162 |
162 |
163 |
164 |
165 |
165 |
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Introduction to Gas Exchange |
Introduction to Gas Exchange |
Gas Exchange in Animals |
Gas Exchange in Animals |
Gas Exchange in Animals |
Gas Exchange in Insects |
Gas Exchange in Insects |
Gas Exchange in Fish
|
Gas Exchange in Plants |
Gas Exchange in Plants |
Adaptations of Xerophytes |
Adaptations of Xerophytes |
Adaptations of Xerophytes |
Adaptations of Xerophytes |
The Human Gas Exchange System |
The Human Gas Exchange System |
Breathing in Humans |
Breathing in Humans |
Measuring Lung Function |
Risk Factors for Lung Disease |
Digestion |
Digestion |
Absorption |
Absorption |
Transport and Exchange in Animals |
Circulatory Fluids |
Gas Transport in Humans |
The Mammalian Transport System |
Arteries |
Veins |
Capillaries |
Capillary Networks |
The Formation of Tissue Fluid |
The Human Heart |
The Human Heart |
The Cardiac Cycle |
The Cardiac Cycle |
The Cardiac Cycle |
The Cardiac Cycle |
Dissection of a Mammalian Heart |
Vascular Tissue in Plants |
Vascular Tissue in Plants |
Xylem and Phloem |
Identifying Xylem and Phloem |
Uptake at the Root |
Uptake at the Root |
Transpiration |
Investigating Plant Transpiration |
Translocation |
Translocation |
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Chapter 5
Genetic information, variation, and relationships between organisms
Activity # |
Title |
Weblinks Title |
169 |
170 |
170 |
170 |
171 |
171 |
172 |
173 |
173 |
173 |
174 |
175 |
175 |
176 |
176 |
176 |
177 |
178 |
178 |
179 |
179 |
181 |
182 |
182 |
185
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185 |
187 |
187 |
189 |
190 |
191 |
191 |
191 |
192 |
193 |
193 |
195 |
196
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197 |
201 |
201 |
201 |
202 |
202 |
206 |
207 |
209 |
209 |
209
|
209
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Prokaryotic Chromosome Structure |
Eukaryotic Chromosome Structure |
Eukaryotic Chromosome Structure |
Eukaryotic Chromosome Structure |
Genomes |
Genomes |
The Genetic Code |
DNA Carries the Code |
DNA Carries the Code |
DNA Carries the Code |
Genes to Proteins |
Transcription in Eukaryotes |
Transcription in Eukaryotes |
Translation |
Translation |
Translation |
Protein Synthesis Summary |
Gene Mutations and Mutagens |
Gene Mutations and Mutagens |
Meiosis |
Meiosis |
Modelling Meiosis |
Mitosis Versus Meiosis |
Mitosis Versus Meiosis |
Mechanism of Natural Selection
|
Mechanism of Natural Selection |
The Evolution of Antibiotic Resistance |
The Evolution of Antibiotic Resistance |
Selection for Human Birth Weight |
Observing Natural Selection |
Adaptation and Fitness |
Adaptation and Fitness |
Adaptation and Fitness |
The Biological Species Concept |
The Phylogenetic Species Concept |
The Phylogenetic Species Concept |
Classification Systems |
Biodiversity
|
Sampling Populations |
Agriculture and Diversity |
Agriculture and Diversity |
Agriculture and Diversity |
Hedgerows |
Hedgerows |
Homologous DNA Sequences |
Homologous Proteins |
Genetic Biodiversity in Endangered Populations |
Genetic Biodiversity in Endangered Populations |
Genetic Biodiversity in Endangered Populations
|
Genetic Biodiversity in Endangered Populations
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Student Workbook
Page 170 - Activity 127
Question 3:
Describe how fish achieve adequate ventilation of the gills through:
Page 233 - Activity 172
In the fill-in table, the amino acid codes for isoleucine and tryptophan should be Ile and Trp respectively.
Model Answers
Page 21 - Activity 104 (page 137)
Question 2:
There is an error in the plot for 0.25 mol dm-3 (change was plotted in error instead of % change). This affects the answers in questions 3.
Download the corrected graph here.
3.
- (a) Approximately 0.16 mol dm-3
- (b) -365 kPa
- (c) 0 kPa (answer unchanged)
- (d) -365 kPa
Page 17 - Activity 83: Optical Microscopes
Q5 should read:
5. (a) Magnification is the number of times larger an object appears compared to the actual size. Resolution is the ability to distinguish between two objects.
(b) The higher the resolution, the higher the magnification can be (and image will still be clear).
Page 58, activity 44: Comparing Globular and Fibrous Proteins
Q1. (a) Fibrous proteins, such as collagen and elastin, are part of connective tissues, such as tendons and ligaments (and also in skin), which provide support and rigidity to more fluid components of tissues.
Page 61, Activity 47
Q2 answer should read …
2. Catabolic reactions break down complex molecules and release energy. Anabolic reactions build complex molecules and require energy input.
Page 77, activity 57 Question 6
…nucleotides are added to the 3' end…
Activity 99
The mean absorbance at 0°C should be 0.0037 (not 0.0055 as in the model answers).
The horizontal axis on the graph (page two of the activity) does not accurately reflect the steps in ethanol concentration. This has subsequently been corrected.
Activity 102: Water Movement in Plant Cells (page 134)
Page 20 Q2(b) A= -400 B = -500 and water moves to the right.
This error has been corrected in the Teacher's Digital Edition
Activity 123: Limitations to Cell Size (page 163)
Page 24 Q6: A cell measuring 1x1x1 cm will have a SA of 6 cm squared and will have a surface area of 48 square cm (not 42). Apologies for the error.
The Teacher's Digital Edition is correct.
Activity 85: Staining a Slide (page 64)
Page 18 of the Model Answers
Q3(b) H&E (not iodine)
TDE correct