In this lecture, we review the fundamentals of numerical simulation (and Euler's method) for a simple clonal bacteria population system with only births. We then add a death flow in and explore how changing the numerical simulation time step ("dt") affects the results. We then transition to a numerical simulation of a toilet tank (a classic balancing feedback loop).
Subscribe to:
Post Comments (Atom)
Popular Posts
-
Unfortunately, due to a technical issue, a recording of the first half of this lecture was lost. Consequently, this recording skips through...
-
In this lecture, we define two different types of delays that are frequently used in simulation – fixed delays and smoothing (or averaging)...
-
Introduces the course, its structure, and its policies. Also begins to introduce the notion of a "model" and the kinds of system ...
-
In this video, we cover more detailed descriptions of "stocks", "flows", and "converters" as well as how they...
-
In this lecture, we continue to add complexity to system dynamics models in Vensim and Insight Maker by introducing two different forms of d...
-
In this lecture, we start drawing Causal Loop Diagrams (introduced in the previous lecture) in the System Dynamics Modeling tool Vensim (fro...
-
In this lecture, we review causal loop diagram (CLD) fundamentals and go through a few examples of building and annotating CLDs. We also go ...
-
Further discussion of what is a "model" (in general), highlighting a wide variety of models including those instantiated in the p...
-
In this lecture, we prepare for the final exam and review topics from the whole semester.
-
In this lecture, we introduce two very different concepts – randomness and chaos. These two terms are often mistakenly used as synonyms, but...
No comments:
Post a Comment