MTH-130-01 Winter 2023
Item set
Items
-
System Analysis through Differential Equations
Analysing and designing control systems using analytical and numerical approaches in Differential Equations -
Michael Kahn Presents, Telegraphers Equations
-
Understanding Epidemic Modeling Through Differential Equations
I will be presenting the equation used for epidemic modeling developed by Ross Beckley Cametria Weatherspoon, Michael Alexander, Marissa Chandler, Anthony Johnson, and Ghan S Bhatt through Tennessee State University and Philander Smith College on June 21, 2013. -
The Clohessy Wiltshire equations
Learn how to not get lost with the Clohessy Wiltshire Equations! -
Navier Stokes and Turbulent Flow
-
Mth130: SIR Model for Spread of Disease
SIR Model for Spread of Disease -
Navier-Stokes Equations: Modeling Real-World Problems
-
Radioactive Decay Ordinary Differential Equation
Describes how radioactive material decays and how it is modeled by an ordinary differential equation. -
Differential Form of the Continuity Equation
-
Turbulence in the Automotive Industry
A brief introduction to the Navier-Stokes equation followed by its applications. A description of how we can use computers to simulate fluid flow, as well as experimental methods used in research. -
Carbon Dating
-
Navier-Stokes & Turbulent Flow
-
Richardson's Arms Race
This project explores Richardson's Arms Race model - a system of differential equations that explain an arms race. -
The Navier-Stokes Equation
MTH-130 Global Challenges Project: The Navier-Stokes Equation by Chris Tsouvalas -
SIR Model
-
Global Challenges Project
I go over the differential equation used for the Tacoma Narrows Bridge -
Material Balance with Differential Equations
-
Earth Overpopulation and the Logistic Equation
-
Global Warming Modeled by Differential Equations
This video dives into the effects of global warming on Earth, the use of the energy balance equation in modeling global temperature rise, and the future predictions for continued temperature rise. -
Differential Equations and Electrical Circuits
-
Differential Equation Application to Radioactive Decay
-
Modelling Population Growth
A 7-minute video explaining population growth as a differential equation. An analytical solution is provided and we also discuss the Global Challenges related to population growth. -
Black Scholes Partial Differential Equation