Presenter(s)
Claudia J. Labrador Rached
Files
Download Project (622 KB)
Description
In this work, we study enzyme kinetics using numerical techniques, such as Euler’s Method and Taylor’s Series Method. Our system consists of four ordinary differential equations, each of them describing the reaction rate of specific compounds in reaction. We represent the numerical solution and plots of each reactant. We compared the performance of our numerical methods with methods used in Callie Martins’ Enzyme Kinetics Spring 2012 Work.
Publication Date
4-9-2015
Project Designation
Course Project
Primary Advisor
Muhammad Usman
Primary Advisor's Department
Mathematics
Keywords
Stander Symposium project
Disciplines
Arts and Humanities | Business | Education | Engineering | Life Sciences | Medicine and Health Sciences | Physical Sciences and Mathematics | Social and Behavioral Sciences
Recommended Citation
"Research exercise: Numerical Methods applied to an Enzyme Kinetics Model" (2015). Stander Symposium Projects. 548.
https://ecommons.udayton.edu/stander_posters/548
Included in
Arts and Humanities Commons, Business Commons, Education Commons, Engineering Commons, Life Sciences Commons, Medicine and Health Sciences Commons, Physical Sciences and Mathematics Commons, Social and Behavioral Sciences Commons
Comments
This poster reflects research conducted as part of a course project designed to give students experience in the research process.