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Skill Building Deck

Posted June 12, 2019 by ilee

A slide deck of exercises to build CS and decoding skills

Cookbook for Common Codes for StarLogo Nova 1.0 and StarLogo Nova 2.0

Posted July 27, 2018 by turtle

The links below include explanations and screen shots for common codes in both versions of StarLogo Nova, including setting up the world, creating and renaming breeds, using default traits and creating custom traits, random and wiggle walks, coordinates and using 3-D view, using keyboard controls, using widgets including sliders, data boxes, charts and line graphs, terrain color, using collisions, creating a stop code, and teaching agents to chase or run away from other agents.

Math Basics for StarLogo Nova

Posted July 27, 2018 by turtle

This handout explains left and right degrees, x and y coordinates, and headings in StarLogo Nova.

Model Design Form

Posted July 27, 2018 by turtle

Here are pdf, docx, and google docs links to the Model Design Form, used in Project GUTS CS in Science Modules.

Guides, Common Forms, and Activity Sheets for CS in Science Modules

Posted July 27, 2018 by turtle

This 56-page pdf includes printable copies of the Student Activity Guides, Common Forms, Blocks Guides, CS Concepts, and Progress Monitors for Modules 1-4 of CS in Science. This version was created in 2015, for StarLogo Nova 1.0. If using StarLogo Nova 2.0, search for the Blocks guides attached to each module.

Code Blocks for CS in Science Module 1: Intro to Computer Science & Simulation

Posted July 27, 2018 by sgibbs

Here are links to the Code Blocks for CS in Science Module 1, for StarLogo Nova 1.0 (Flash version), and the Code Blocks for CS in Science Module 1 for StarLogo Nova 2.0 (HTML5/JavaScript version). This is not the one-page Blocks and Drawers Guide for StarLogo Nova (those documents are linked below).

Trailblazers

Posted July 27, 2018 by turtle

Trailblazers is a fun pencil and paper activity where students write simple instructions for another student to navigate a maze. The instructions are drawn on the maze as commands (if square is red, turn right, etc.) and then students exchange papers to navigate the maze following only the commands. This is a preliminary activity for the Bumper Turtles coding activity.

Maze

Posted August 3, 2017 by arodriguez

Students struggle understanding proportional relationships and scaling shapes. This module allows students to scale one shape and transfer it to 3 different environments. Students will create a game online (SL Nova) and program a Sphero (robot) while learning the math standards.

Kinesthetic Flower Turtles Activity

Posted August 3, 2017 by carl

This activity is an extension to the CS in Science Module 1, Lesson 2, between activity 1 and activity 2. It is a kinesthetic activity to show how the agents behave according to a certain program. It can replace the activity that is there or be used as an extension or add on to the listed activities.

Data and Data Analysis video

Posted July 3, 2017 by sgibbs

A very short video (0.36) introducing the concepts of data and data analysis from StarLogo Nova models.

Guía de observación de un modelo basado en agentes

Posted May 16, 2017 by Rizzi

Se trata de una guía para poder observar un modelo basado en agentes y reconocer sus diferentes partes, como por ejemplo las abstracciones (quiénes son los agentes, cuál es el entorno, cuáles son las interacciones); la automatización; los supuestos y el análisis.

Code.org and SLNova Computer Science Concepts

Posted May 13, 2017 by kristico

This is a 4 week unit for a Computer Technology class in a middle school. Students are introduced to computer science concepts through lessons in Code.org's Course 3. Students then apply those concepts in SLNova projects.

Libro de recetas de StarLogo NOVA

Posted March 27, 2017 by Rizzi

Este documento incluye explicaciones y capturas de pantalla para los códigos comunes en StarLogo Nova, incluyendo la creación del mundo, la creación y el cambio de nombre de razas, el uso de rasgos por defecto y la creación de rasgos personalizados, movimientos aleatorios, coordenadas y el uso de la vista 3D, cajas de datos y gráficos de línea, el color del terreno, el uso de colisiones, la creación de un código para detener la ejecución, y cómo perseguir o huir de otros agentes.

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