![]() We then need to use an inverse operation on the derivative to determine the desired function. In mathematical terms, we often can determine equations involving the derivatives of functions instead of the functions themselves. Frequently, the obvious relations involve rates of change of the quantities of interest, and not the quantities themselves. Most applications of calculus to ecological problems involve the determination of specific relationships between measured quantities. 16.6 Mapping the heat limit of the Desert Iguana.16.5 Mapping the cold limits of the Desert Iguana.16.4 Mapping the climate space of the Desert Iguana in North America.16.3 Getting the climate space available in Australia.14.5.3 Boundary Layers and Non-dimensional Numbers: A Bulk Approach.14.4.1 Viscosity and Laminar Shear Flows.13.5.3 Comparison of Theory with Experiment.13.5.2 Properties of the Harmonic Solution.13.5 USE OF THE HEAT CONDUCTION EQUATION.13.4.3 Heat Conduction (Diffusion) Equation.13.4.2 Heat Storage and Energy Conservation.13.4.1 Fourier’s Law of Heat Conduction.13.3 GOVERNING FACTORS IN SOIL HEAT FLOW.12.7 HEAT GAINED BY ABSORPTION OF RADIATION.12.4 HEAT TRANSFER BY CONDUCTION WITHIN THE ANIMAL.11.7.2 Sample Plots of Transpiration and Leaf Temperature.11.7.1 Calculations of Leaf Temperatures and Transpiration.11.5 INFLUENCE OF ENERGY COMPONENTS ON LEAF TEMPERATURE.11.4.2 Values of the Environmental Variables.10.4.2 Laboratory and Field Applicatons of the Operative Environmental Temperatures.10.4.1 Mathematical Development of the Operative Environmental Temperature.10.4 THE OPERATIVE ENVIRONMENTAL TEMPERATURE. ![]()
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