Find Resources

Module 1 Lesson 6 - Adding Instrumentation to your Model and Running Experiments

In this lesson students will add instrumentation to their model so they can collect quantitative data on the spread of disease. Students will use this model to run experiments to determine if disease will spread throughout a
virtual population under different initial conditions and different scenarios.

Module 1 Lesson 5 - Modeling the Spread of Disease

In this lesson students will convert their Colliding Turtles model into a simple Epidemic model by adding slider widgets for transmission rate and recovery rate. The Contagion model represents a very simplified version of an epidemic or spread of a disease. Two variables will be created: transmission rate and recovery rate. Students will later use this model to run experiments to determine if disease will spread throughout a virtual population in different scenarios.

Module 1 Lesson 4 - Probability with Dice and Data and Colliding Turtles

In this lesson students will participate in two activities. In the first activity, students will learn about probability, how it is implemented in StarLogo Nova, and use probability to implement chance behavior in agent movement. In the second activity, students will create a Colliding Turtles project in which turtles react to other turtles upon collision. The wrap-up discussion covers what probability is used for in computer modeling and simulation.

Module 1 Lesson 3 - Conditionals with Trailblazer and Bumper Turtles

In this lesson students will participate in two activities. In the first they will
learn about conditionals, logic, and Boolean expressions as they guide an
agent through a puzzle. They also consider the best path / solution and the degree of universality of their solution. In the second activity, students will learn a few simple commands and then starting with a basic project, implement a Bumper Turtles program in which agents respond to their environment.

Module 1 Lesson 2 - Introduction to StarLogo Nova and Building Flower Turtles

In this lesson students will participate in two activities. The first activity is a guided introduction to the StarLogo Nova simulation environment. In the second activity, students will learn a few simple commands and then create their first computer program. Students will progress from single turtle explorations to instructing many turtles to follow their commands in parallel.

Module 1 Lesson 1 - Introduction to Complex Adaptive Systems and Computer Modeling and Simulation

The introductory lesson in Module 1, consisting of two activities. In the 1st activity, students will do a participatory simulation called "Turn & Walk" that will expose them to the characteristics of complex adaptive systems. In the 2nd activity, students will be led “under the hood” and get an overview of some of the parts of a computer model.

Sample rubric for ecosystem module

This rubric was previously posted on the Code.org site and many teachers have found it to be helpful. You can save a copy and modify as fits your curriculum.

Decoding a Model - Dissolving of NaCl in Water

Start of a lesson on dissolving a solid in water by decoding on a model.

Maze

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.

Code.org and SLNova Computer Science Concepts

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.

Rubric ideas for assessing computer models

In December 2015, Code.org teachers were asked for their ideas on 4 important criteria to include in any rubric used to assess computer models. Here are their ideas, in a forum discussion.

Understanding by Design

Understanding by Design (UbD) curriculum offers a 3-stage “backward design” framework for developing units of study. The same process guides larger-scale curriculum development for courses and
programs (macro level). The UbD curriculum structure for building a coherent curriculum spirals around “big ideas,” essential questions, and core assessments.

StarLogo Nova 1.0 User Interface image for a quiz

This image can be used for quizzing students on their knowledge of the StarLogo Nova1.0 interface.

Search for "[keyword]" across the whole site.