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Chapter 7 Opener The burden of food

Chapter 7 Opener The burden of food . Figure 7.1 The second law of thermodynamics in action . Figure 7.1 The second law of thermodynamics in action . Figure 7.2 The uses of energy by an animal. Figure 7.2 The uses of energy by an animal.

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Chapter 7 Opener The burden of food

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  1. Chapter 7 Opener The burden of food

  2. Figure 7.1 The second law of thermodynamics in action

  3. Figure 7.1 The second law of thermodynamics in action

  4. Figure 7.2 The uses of energy by an animal

  5. Figure 7.2 The uses of energy by an animal

  6. Figure 7.3 In this type of external work, some of the energy driving locomotion is converted to potential energy of position

  7. Box 7.2 Units of Measure for Energy and Metabolic Rates

  8. Figure 7.4 Lavoisier’s direct calorimeter

  9. Figure 7.4 Lavoisier’s direct calorimeter

  10. Box Extension 7.4A

  11. Box Extension 7.4B

  12. Figure 7.5 Specific dynamic action (SDA)

  13. Figure 7.5 Specific dynamic action (SDA)

  14. Figure 7.6 The effect of body size on weekly food requirements

  15. Figure 7.6 The effect of body size on weekly food requirements

  16. Figure 7.7 BMR as a function of body weight in various species of placental mammals

  17. Figure 7.7 BMR as a function of body weight in various species of placental mammals

  18. Figure 7.8 Weight-specific BMR as a function of body weight in various species of placental mammals

  19. Figure 7.8 Weight-specific BMR as a function of body weight in various species of placental mammals

  20. Figure 7.9 Weight-specific metabolic rate as a function of body weight in four groups of vertebrates

  21. Figure 7.9 Weight-specific metabolic rate as a function of body weight in four groups of vertebrates

  22. Figure 7.10 Metabolic rate and body weight are related linearly on log–log coordinates

  23. Figure 7.10 Metabolic rate and body weight are related linearly on log–log coordinates

  24. Figure 7.10 Metabolic rate and body weight are related linearly on log–log coordinates (Part 1)

  25. Figure 7.10 Metabolic rate and body weight are related linearly on log–log coordinates (Part 2)

  26. Figure 7.11 Hearts of a horse, cat, and mouse: Heart size in mammals is roughly proportional to body size

  27. Box 7.5 Scaling of Heart Function

  28. Figure 7.12 Herbivores of different body sizes coexisting on an African grassland

  29. Figure 7.13 As the circulatory system is scaled up and down in size and extent, constraints predicated on fractal geometry may help give rise to allometric metabolic scaling

  30. Figure 7.13 As the circulatory system is scaled up and down in size and extent, constraints predicated on fractal geometry may help give rise to allometric metabolic scaling

  31. Figure 7.14 Net growth efficiency during each year of life in Pacific sardines (Sardinopssagax)

  32. Figure 7.14 Net growth efficiency during each year of life in Pacific sardines (Sardinopssagax)

  33. Table 7.1

  34. Table 7.2

  35. Table 7.3 (Part 1)

  36. Table 7.3 (Part 2)

  37. Table 7.4

  38. Table 7.5

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