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Battle of the Agents

A take on the classic board game Battleship, this paper and pencil activity is a fun way to help students understand the use of x and y coordinates in StarLogo Nova. After the activity, students can use the StarLogo Nova model to experiment with x and y locations in a game-like context.

Traffic Patterns for StarLogo TNG

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

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). .

Battleship activity in StarLogo Nova

This activity uses the idea of the classic "battleship" game to review x and y coordinates in StarLogo Nova.  Students do a pen and paper simulation of the game, and then use a base model in StarLogo Nova to review the coordinates.

TryAngles

Students participate in an off-line activity called “TryAngles”, and 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.

27 Blind Mice

An off-line activity that introduces the concept of global and local communication strategies.

Penny Growth

Penny growth is a table-top hands-on activity in which students grow penny colonies based on simple rules. Through this activity and a corresponding computer model, students gain experience with modeling population growth, plotting data, and recognizing patterns. Different sized environments can be used to prompt a discussion of limits to growth fo the colonies.

Decoding a model

Decoding a model is an on computer activity in which students are challenged to decode a model.

Peanut Butter & Jelly Robot

This activity introduces students to several computer science concepts, to the necessity for thoroughness while programming, and to the often strange results of literalism. The overarching theme is that computers do what they are told and nothing more. The ability to read between the lines and determine what was meant rather than what was said is a skill computers lack. Additionally, students are introduced to the concept of debugging.

Archived Material: CS in Science Module 1 (for StarLogo Nova 1.0)

Archived Material: Module 1 introduces basic concepts in modeling complex systems through hands-on activities and participatory simulations. A scaffolded series of highly-engaging design and build activities guide students through developing their first computer model in StarLogo Nova 1.0, a modeling and simulation environment developed at the Massachusetts Institute of Technology.

Información sobre Sistemas Complejos Adaptativos

Tres documentos con información general acerca de Sistemas Complejos Adaptativos. Traducidos por @rizzicristian a partir de los originales en Inglés.

Archived Material: CS in Science Module 2: Water as a Shared Resource (for StarLogo Nova 1.0)

Archived material for CS in Science: Module 2 for StarLogo Nova 1.0 (flash version, updated in 2015). In this module, students will investigate the importance of ground water and the impacts of water usage on aquifer levels. They will also explore how to model important parts of the water cycle, including evaporation and infiltration of water into different types of soils to recharge the aquifers.

Project GUTS' Learners to Leaders

This is the Project GUTS Facilitator's Guide. Both the 2016 version (for Code.org 3-day workshops) and the updated 2018 version for CS in Science are linked below.

Project GUTS' Club Leader Handbook

This handbook was developed to help teachers and others interested in starting a Project GUTS afterschool club.

Archived Material: CS in Science Module 3 - Ecosystems as complex systems (for StarLogo Nova 1.0)

Archived Material: CS in Science Module 3 (for StarLogo Nova 1.0, Flash version updated 2015). This Life Science module begins with an exploration of a simple predator-prey model to consider who eats whom—and what happens when one population grows faster than another. Students develop their own model of a local ecosystem and learn about ecosystem dynamics, producers and consumers, and interdependent relationships within an ecosystem.

Archived Material: CS in Science Module 4 Chemical Reactions for StarLogo Nova 1.0 (Flash version)

Archived Material: CS in Science Module 4: Chemical Reactions for StarLogo Nova 1.0 (Flash version, updated 2015). This Physical Science module explores chemical reactions: the conditions under which they occur, the evidence that a chemical reaction has taken place, limiting reactants versus reactants in excess, and when chemical reactions stop. The base model for this unit simulates the chemical reaction between silver nitrate and copper.

Implementation Planning Guide

This is a guide used by teachers when planning their classroom implementation. The guide prompts teachers to work through details of the implementation that teachers have found to be important.

Computational Thinking Resources

The attached documents can provide background information for teachers on Computational Thinking.

Project GUTS MOOC

Project GUTS presented the CS in Science curriculum modules in a Massive Open Online Course (MOOC). The links below will allow you access to the original MOOC site, to see not only the written curriculum but also screencasts of building the related StarLogo Nova models and other background information for teachers and facilitators. The MOOC was also translated in Spanish (see link below).

For the 2017 course, please go to guts-2017.appspot.com

Bumper Turtles for StarLogo TNG

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