MATA35 - Lecture 7a - Introduction to Ordinary Differential Equations
MATA35 - Lecture 12a - Epidemic modelling basics (1-variable models)
MATA35 - Lecture 3a, part 1 - intro to matrix operations
MATA35 - Lecture 7c - exact differentials
MATA35 - Lecture 8a - compartmental models
MATA35 - Lecture 5c - multiple integration
MATA35 - Lecture 5a - multivariable functions
MATA35 - Lecture 11c - Approximating functions using power series
MATA35 - Lecture 8b - substitution method
MATA35 - Lecture 8c - Euler's Method and Runge-Kutta
MATA35 - Lecture 6b - Python basics for linear regression
MATA35 - Lecture 7e - autonomous ODEs, direction fields, and phase line
MATA35 - Lecture 1a - integration basics for biologists
MATA35 - Lecture 11a - Nonlinear phase portraits
MATA35 - Lecture 4c - basis vectors and eigenbases
MATA35 - Lecture 7b - pure-time and separable ODEs
MATA35 - Lecture 11b - Power series
MATA35 - Lecture 1b - Riemann sums and fundamental theorem of integral calculus
MATA35 - Lecture 9a - Higher-order homogeneous linear ODE
MATA35 - Lecture 6c - Multilinear and Nonlinear Regression
MATA35 - Lecture 10b - Matrix ODE representations
MATA35 - Lecture 4a - more determinants; eigenvalues and eigenvectors
MATA35 - Lecture 4b - eigenbasis of a matrix and applications of eigendecomposition
MATA35 - Lecture 6a - introduction to regression analysis
MATA35 - Lecture 9c - complex eigenvalues and real solutions
