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When you are a biology student the most basic thing you need to continue your research is mathematics. Why? Because you can’t even estimate what is going on in different cells without proper mathematic modeling.

This course will introduce you to modeling biological problems using continuous ODE methods. The focus will be on describing qualitative behavior of dynamical system.  You will also learn about models needed to describe chemical reactions inside cells, neuronal signals and oscillation signals in this course.


This course does not involve any written exams. Students need to answer 5 assignment questions to complete the course, the answers will be in the form of written work in pdf or word. Students can write the answers in their own time. Each answer needs to be 200 words (1 Page). Once the answers are submitted, the tutor will check and assess the work.


Edukite courses are free to study. To successfully complete a course you must submit all the assignment of the course as part of the assessment. Upon successful completion of a course, you can choose to make your achievement formal by obtaining your Certificate at a cost of £49.

Having an Official Edukite Certification is a great way to celebrate and share your success. You can:

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  • Show it to prove your success


Course Credit: UCI Open

Course Curriculum

Mathematical Biology. 01: Introduction to the Course 00:33:00
Mathematical Biology. 02: Bacterial Growth 00:46:00
Mathematical Biology. 03: Nondimensionalization 00:50:00
Mathematical Biology. 04: Steady States and Linearization 00:44:00
Mathematical Biology. 05: Linear Systems I 00:52:00
Mathematical Biology. 06: Linear Systems II 00:53:00
Mathematical Biology. 07: Stability Analysis 00:50:00
Mathematical Biology. 08: Phase Diagrams 00:51:00
Mathematical Biology. 09: Phase Diagrams II 00:52:00
Mathematical Biology. 10: Phase Diagrams III 00:48:00
Mathematical Biology. 11: Single Species Population Models 00:46:00
Mathematical Biology. 12: Midterm Review 00:47:00
Mathematical Biology. 13: Lotka Volterra Competiton 00:49:00
Mathematical Biology. 14: Predator Prey Model 00:47:00
Mathematical Biology. 15: SIR Model 00:52:00
Mathematical Biology. 16: Michaelis Menten Enzyme Model 00:42:00
Mathematical Biology. 17: Timescale Decomposition 00:53:00
Mathematical Biology. 18: Quasi Steady State Analysis 00:49:00
Mathematical Biology. 19: Sigmoidal Functions, Multisite Systems 00:47:00
Mathematical Biology. 20: Chemical Kinetics: Mass Action Law 00:51:00
Mathematical Biology. 21: Hopf Bifurcations 00:50:00
Mathematical Biology. 22: Subcritical Hopf 00:52:00
Mathematical Biology. 23: Poincare-Bendixson 00:50:00
Mathematical Biology. 24: Poincare-Bendixon II 00:45:00
Mathematical Biology. 25: Index Theory 00:48:00
Mathematical Biology. 26: Final Review, Part 1 00:42:00
Mathematical Biology. 27: Final Review, Part 2 00:53:00
Submit Your Assignment 00:00:00
Certification 00:00:00

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