From Population Dynamics to Partial Differential Equations

M. Kerckhove
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引用次数: 6

Abstract

Differential equation models for population dynamics are now standard fare in single-variable calculus. Building on these ordinary differential equation (ODE) models provides the opportunity for a meaningful and intuitive introduction to partial differential equations (PDEs). This article illustrates PDE models for location-dependent carrying capacities, migrations, and the dispersion of a population. The PDE models themselves are built from the logistic equation with location-dependent parameters, the traveling wave equation, and the diffusion equation. The approach presented here is suitable for a single lecture, reading assignment, and exercise set in multivariable calculus. Interactive examples accompany the text and the article is designed for use as a CDF document in which some of the input can remain hidden.
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从种群动力学到偏微分方程
人口动态的微分方程模型现在是单变量微积分的标准方法。建立在这些常微分方程(ODE)模型的基础上,为有意义和直观地介绍偏微分方程(PDEs)提供了机会。本文阐述了与位置相关的承载能力、迁移和种群分散的PDE模型。PDE模型本身由具有位置依赖参数的logistic方程、行波方程和扩散方程建立。这里提出的方法适用于多变量微积分的单一讲座、阅读作业和习题集。本文附带了一些交互式示例,本文的设计目的是作为CDF文档使用,其中一些输入可以保持隐藏。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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