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Introducing Mathematical Biology: Cover

Introducing Mathematical Biology
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table of contents
  1. Cover
  2. Title Page
  3. Copyright
  4. Table Of Contents
  5. Introduction
  6. Population ecology
    1. Single population models
    2. Interacting populations 1: competition
    3. Interacting populations 2: predator-prey
  7. Infectious disease
    1. Epidemics in human populations
    2. The SIR model with demographics
    3. Diseases of ecological populations
    4. Evolution and adaptive dynamics
  8. Immune and cell dynamics
    1. A within-host Covid-19 model
    2. A within-host HIV-I model
    3. Introducing models of cancer dynamics
    4. A model of cancer volume dynamics
  9. Gene networks
    1. Introducing gene networks
    2. Autoregulation 1: auto-repression
    3. Autoregulation 2: auto-activation
    4. Longer negative feedback networks
    5. A two-gene toggle switch
  10. Pharmacokinetics
    1. Single intravenous bolus dose
    2. Repeated intravenous bolus doses
    3. Single and repeated oral doses
    4. A two compartment bolus model
  11. Background reviews
    1. Phase portraits
    2. Linear stability analysis
    3. Bifurcations
  12. Final thoughts and acknowledgements
  13. References

Introducing Mathematical Biology

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            Introducing Mathematical Biology by Alex Best is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.
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