Find Resources

MSM Unit 1, Lesson 6: Decoding & Modifying the model

In this lesson students will be modifying the model of the molecular beam experiment to make a collision between different molecules. This time we will use hydrogen peroxide or H2O2 molecules instead of water molecules. Students will decode the model and make changes to the model‘s setup and collision code to model the collision and reaction. They will test the accuracy of the model by checking to see if the proper number and ratio of products were produced.

MSM Unit 1, Lesson 2: Colliding Turtles Playground

In this lesson students engage in creating, modifying and testing collisions and reactions (cause and effect) processes as instructions. Playgrounds are Google Slides with code blocks that students use to arrange and then act out as the computer processing the instructions. The concepts of ratios and examining ratios before and after collisions are made explicit.

MSM Unit 1, Lesson 3: Decoding & Modifying a Collision Model

In this lesson students see a StarLogo Nova model of turtles colliding. Then they look under the hood of the model to see if they recognize any of the code blocks being used. (*Students are often surprised to see that the code they generated in the playground is actually used to run the model!) Students identify where in code the ratio is being produced and what the ratio of turtles is before and after the collision. Finally, students get to pick a ratio they want to produce and modify the mode

MSM Unit 1, Lesson 4: Matter and Properties of Water

In this lesson students learn about matter and properties of matter. Then conduct two experiments (that can be done at home) and develop a mental molecular level understanding of water. This lesson prepares students for the next two lessons in which they will be modeling the breakdown of water into its component atoms.

MSM Unit 1, Lesson 5: Molecular Beam Experiments

In this lesson students explore a model of a molecular beam experiment in which two water molecules collide at high speed and break apart into their component atoms. In analyzing the ratios of hydrogen and oxygen produced by the collision, students notice that there is something wrong. Investigating the code of the model leads to the discovery of a problem that students can fix. Students can test their solution to fixing the model by running the model and seeing if it produces the components in

MSM Unit 3: It’s Getting Hot in Here

summary

MSM Unit 2: Clean Water

This unit spans across 6th grade math and science content.

MSM Unit 1, Lesson 1: Introducing Ratios

In this lesson students will participate in two activities then create their own ratio puzzles. In the first activity, they will learn about parts-to-parts ratios and complete an embedded assessment. In the second activity, they will learn about parts-to-whole ratios and complete another embedded assessment. In the third activity, students will create their own ratio puzzles to share. Throughout the lessons, the language of ratios is reinforced.

CS in Science Curriculum (binder) compatible with StarLogo Nova 2.0

This is the pdf of the complete CS in Science curriculum. Print copies can be ordered from Mimeo.

Screen shot from model showing projectile motion

Modeling Change

This contributed curriculum physics unit introduces and builds models to explore concepts of independent and dependent change, constant and variable x and y change, gravity, and projectile motion. Each lesson contains detailed instructions on how to build each model, and links to base models and completed projects. Modeling Change Lesson 1 is also uploaded as an independent resource (since it can serve as an alternative introduction to StarLogo Nova).

Middle School Dissolving Salt Chemistry Module options

This lesson was developed to be used with two stand alone models developed by GUTS as alternatives to the Chemistry Module 4. This is aimed at middle school students. This pairs a hands on lab activity with the CS models to explore the strengths and weaknesses of CS models of physical changes at an introduction to chemistry level. Students decode the models and make changes including adding and testing variables.

Decoding a Model - Dissolving of NaCl in Water

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

Scientific Practices and Computational Thinking in Modeling & Simulation

This document is a handout used to reflect on the scientific practices and computational thinking involved in a Project GUTS module or lesson.

Code Blocks for CS in Science Module 4 (Chemical Reactions)

Use this document while decoding the base model in CS in Science, Module 4: Chemical Reactions.
Select the relevant link below, depending on whether you are using StarLogo Nova 1.0 (flash version) or StarLogo Nova 2.0(HTML5/JavaScript version).

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

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.

CS in Science Module 4: Chemical Reactions (for StarLogo Nova 2.0)

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. The pacing guide and models have been updated for StarLogo Nova 2.0 (HTML5/JavaScript version).

Progress Monitors for CS in Science Modules (coding activities)

Progress Monitors are meant to be guides for students, giving goals for the model but not providing specific coding instructions.

Modeling molecules is solids, liquids, and gases

This model simulates intermolecular forces and lets people change the temperature using a slider. At high temperatures, you can see the molecules fly around as a gas, with occasional collisions. With lower temperatures they condense to a liquid, and even lower they freeze to a solid.

Looking at particles with StarLogo Nova

This lesson uses StarLogo Nova to explore how particles move from gas to liquid to solid depending on the setting of the heat slider.

Screen shot of code from completed model

Alternative Intro to StarLogo Nova - Modeling Change Lesson 1

The first part of the Modeling Change Unit can be used as a fun stand-alone programming activity for students unfamiliar with StarLogo Nova. It guides students to build a model that use keyboard controls to change the two-dimensional location of agents (in section 1a) and change other traits including the third dimension (z), shape, color, and heading (in section 1b).

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

If you can't find what you're looking for, send us a comment about what you were expecting to find.