Dead leaves, ping-pong balls or plastic golf balls are floated down a small stream. The number of leaves/balls passing recording stations along the stream are tallied. Students are then challenged to develop a transport model for the resulting data. From this exercise students gain greater understanding of PDE modeling, conservation laws, parameter estimation as well as mass and momentum transport processes.https://digitalcommons.usu.edu/lemb/1002/thumbnail.jp
Engineering students at UW-Stout learned about the basics of fluid drag, and the influence of shape ...
This site features Flash animations and QuickTime movies that illustrate some of the processes assoc...
Air quality is of concern in densely populated areas and especially near sources of inefficiently ex...
The particle transport simulation is designed to help students gain a deeper level of understanding ...
In this activity, students will measure the profile of a stream, determine its current velocity at v...
Introduction to momentum and scalar transport in environmental flows, with emphasis given to river a...
Students test Torrecelli’s law and develop and compare their own alternative models to describe the ...
This module is part of a series designed to be used by life science students for instruction in the ...
Students will be able to calculate momentum using mass and velocity of an object. ...
Integrating experimental biology laboratory exercises with mathematical modeling can be an effective...
The fate of solute and pollutants is controlled by a broad number of different transport and storage...
I have put the topics of motion under drag forces into the school environment. In the first part I h...
This paper presents a novel platform to study the dampening of water and solute transport in an expe...
A new series of introductory physics experiments for teaching the kinematics and dynamics of falling...
Understanding the connection between structure and function is fundamental in biology. In plant biol...
Engineering students at UW-Stout learned about the basics of fluid drag, and the influence of shape ...
This site features Flash animations and QuickTime movies that illustrate some of the processes assoc...
Air quality is of concern in densely populated areas and especially near sources of inefficiently ex...
The particle transport simulation is designed to help students gain a deeper level of understanding ...
In this activity, students will measure the profile of a stream, determine its current velocity at v...
Introduction to momentum and scalar transport in environmental flows, with emphasis given to river a...
Students test Torrecelli’s law and develop and compare their own alternative models to describe the ...
This module is part of a series designed to be used by life science students for instruction in the ...
Students will be able to calculate momentum using mass and velocity of an object. ...
Integrating experimental biology laboratory exercises with mathematical modeling can be an effective...
The fate of solute and pollutants is controlled by a broad number of different transport and storage...
I have put the topics of motion under drag forces into the school environment. In the first part I h...
This paper presents a novel platform to study the dampening of water and solute transport in an expe...
A new series of introductory physics experiments for teaching the kinematics and dynamics of falling...
Understanding the connection between structure and function is fundamental in biology. In plant biol...
Engineering students at UW-Stout learned about the basics of fluid drag, and the influence of shape ...
This site features Flash animations and QuickTime movies that illustrate some of the processes assoc...
Air quality is of concern in densely populated areas and especially near sources of inefficiently ex...