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Alternate activities to introduce Project GUTS

Posted July 27, 2018 by turtle

Sometimes, teachers have a students who have already participated in Project GUTS introductory activities, and want to use something different, or want another activity to expand a lesson. Below are links to some alternate activities, both hands-on and on-line, for you to explore.

Traffic Patterns for StarLogo TNG

Posted November 24, 2016 by turtle

Why do traffic jams form?

Each year the number of paved miles grows by roughly 20,000 miles. When traffic gets too congested, traffic engineers must consider changes to existing roads or intersections. This unit engages students in interactive activities to explore pattern formation in complex systems, and in the use, modification, and creation of agent-based models to conduct experiments on simple virtual traffic systems, to study whether proposed road changes will the desired effect.

Math Challenges in StarLogo TNG

Posted August 30, 2016 by turtle

This activity reviews the use of angles, heading, x, y, and z coordinates, and random ranges in StarLogo TNG. It corresponds to the coding challenges for StarLogo Nova (see related link). .

Bumper Turtles for StarLogo TNG

Posted August 30, 2016 by turtle

A coding activity to introduce students to conditional logic -- this version follows the "Pixelated Paths" activity and builds the model in Star Logo TNG. 

Painted Turtles for StarLogo TNG

Posted August 30, 2016 by turtle

An fun introductory coding activity in StarLogo TNG using the random blocks, which demonstrates the power of parallel programming by simultaneously using many turtles to create patterns on the screen. For StarLogo Nova, see this activity in CS in Science, Module 1.

Walk & Turn for StarLogo TNG

Posted August 25, 2016 by turtle

In this activity, students will participate in an activity called “Walk & Turn”, will see a computer model based on the same activity. Of particular interest is the interleaving of activity types; live off-line activities and computer simulations, and the juxtaposition of real and virtual worlds. Following the activity students will use the CAST to analyze the activity as a complex adaptive system. For this activity using StarLogo Nova, see CS in Science, Module 1.

Swords and Shields

Posted August 25, 2016 by turtle

Swords and Shields is an interactive simulation game which teaches students some of the basic ideas of complex adaptive systems. After playing, you can show the students a model of the game in StarLogo TNG or StarLogo Nova to discuss basic concepts of agent-based modeling. Try it, it's fun! See also the variation to this activity in Resources, and see the related activity of TryAngles.

Science of Friendship

Posted August 16, 2016 by turtle

Why do humans help some people and not others?  This Project GUTS unit explores this question and allows students to test their own assumptions. Using methods and data from anthropology, sociology and psychology and computer modeling in NetLogo, students investigate the role of cooperation in human interactions—and how cooperation plays a role in global issues such as resource management, health equity and climate change.

Social Networks for StarLogo TNG

Posted August 16, 2016 by turtle

How are people connected?  Humans are inherently social and have relationships far more complex than the random encounters often seen in agent-based modeling. These relationships can vary in strength and meaning – we see social networks that range from kinship networks, friendship networks to contact networks used in the study of epidemiology. The primary goal of this unit is to engage students in simple interactive activities to explore social network concepts and to model those concepts.

Pollution Unit for StarLogo TNG

Posted August 16, 2016 by turtle

What can we do about pollution in our town?  In this unit, students learn about pollution and the spread of contaminants from a point source. Some collect traffic data outside their schools and ask how many trees are needed at their school to maintain acceptable CO2 levels—even as traffic flow fluctuates and traffic jams form. With computer modeling, they investigate possibilities.

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