BMES 511 Lecture Notes - Lecture 6: Mathematical Model, Power Law, Normalizing Constant

4) y*(to+h) for derivative of y(t) at to + h --> k2. Let to = 0 to derivative of y(t) --> k1. Audio recording started: 5:39 pm wednesday, february 10, 2016. Having different values/units due to different processes to compare (here the cell cycle as a whole and on the molecular level using mins and milliseconds) We can say that every 10 minutes, we update the metabolism. Break up into two different pieces where you solve it for one time step and then update the smaller unit value over time. Compare the time step to the half time step. Audio recording started: 6:30 pm wednesday, february 10, 2016. 15 questions - probing understanding and some with equation or forrester diagrams. E+r--> s (to understand the system) - synthesis. S+r --> e (control/how to elicit response) - instrumentation (from chapter 1. 2) Transport - accounts for mass and energy across each step. Finite state - like weather being good or bad.