In Fashion & Design, students learn how computer science and technology are used in the fashion industry while building fashion-themed programs, like a fashion walk, a stylist tool, and a pattern maker.
Fashion & Design is a complete theme designed to be completed over eight, 45-75 minute, sessions. For each Activity, students will watch a series of videos and create one coding project with opportunities to personalize their work using “Add-Ons”, which are mini-coding challenges that build on top of the core project.
This unit contains eight lessons which culminate in a unit project. Lessons can be completed individually if students have some experience with Scratch.
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Students use computer science to simulate extreme sports, make their own fitness gadget commercial, and create commentary for a big sporting event.
Sports is a complete theme designed to be completed over eight, 45-75 minute, sessions. For each activity, students will watch a series of videos and create one coding project with opportunities to personalize their work using “Add-Ons,” which are mini-coding challenges that build on top of the core project.
This sample activity is a collaboration between Cartoon Network and CS First. Students will tell a story using the characters from “The Amazing World of Gumball". This activity introduces students to computer science and the programming language Scratch. Students will use different Scratch blocks to create their own unique stories.
Gumball’s Coding Adventure is a simple activity designed to be completed within 45-75 minutes. Students will watch a series of videos and create one coding project with opportunities to personalize their work using “Add-Ons”, which are mini-coding challenges that build on top of the core project.
In each of the “Create your own Google logo” activities, students code and design their own versions of the Google logo. These activities introduce students to computer science and the programming language Scratch. These activities are most appropriate for students ages 9-14 and take 15-60 minutes to run.
In Art, students create animations, interactive artwork, photograph filters, and other exciting, artistic projects.
Art is a complete theme designed to be completed over eight, 45-75 minute, sessions. For each Activity, students will watch a series of videos and create one coding project with opportunities to personalize their work using “Add-Ons”, which are mini-coding challenges that build on top of the core project.
In Storytelling, students use computer science to tell fun and interactive stories. Storytelling emphasizes creativity by encouraging students to tell a unique story each day.
Storytelling is a complete theme designed to be completed over eight, 45-75 minute sessions. For each Activity, students will watch a series of videos and create one coding project with opportunities to personalize their work using “Add-Ons”, which are mini-coding challenges that build on top of the core project.
This Unit Plan consists of eight activities to be completed over multiple days or weeks.
In Music & Sound, students use the computer to play musical notes, create a music video, and build an interactive music display while learning how programming is used to create music.
Music is a complete theme designed to be completed over eight, 45-75 minute, sessions. For each activity, students will watch a series of videos and create one coding project with opportunities to personalize their work using “Add-Ons,” which are mini-coding challenges that build on top of the core project.
In Game Design, students learn basic video game coding concepts by making different types of games, including racing, platform, launching, and more!
Game Design is a complete theme designed to be completed over eight, 45-75 minute, sessions. For each activity, students will watch a series of videos and create one coding project with opportunities to personalize their work using “Add-Ons”, which are mini-coding challenges that build on top of the core project.
Students will design a prescribed app, making changes to design elements to match the intended design. By reading and changing the content on the screen of an app, the class starts to build apps that only need a single screen. Even with just one screen, these techniques allow for lots of user interaction and functionality.
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Students take what they've learned through Unit 6 Chapter 1 and develop an app of their own design that uses the circuit board to output information.
Students, working with a partner or team will brainstorm physical devices they wish to prototype. Students have the option to design a new creation or recreate a device they have found in the "real world". Students will complete a planning guide to determine the resources (physical and digital) they will need to create their prototype. Students will design a user interface (typically an app or circuit board) that may control some output device (like a circuit board). It will be necessary for students to develop pseudocode or algorithms to aid in the coding process. Students will need to complete the problem-solving process during this lesson plan which will include testing a revising the prototype.
This unplugged lesson explores the underlying behavior of variables. Using notecards and string to simulate variables within a program, the class implements a few short programs. Once comfortable with this syntax, the class uses the same process with sprite properties, tracking a sprite's progress across the screen.
By combining the Draw Loop and the Counter Pattern, the class writes programs that move sprites across the screen, as well as animate other sprite properties.
The class continues to explore ways to use conditional statements to take user input. In addition to the simple keyDown() command learned yesterday, the class learns about several other keyboard input commands as well as ways to take mouse input.
This lesson introduces the draw loop, one of the core programming paradigms in the Game Lab. The class combines the draw loop with random numbers to manipulate some simple animations with dots and then with sprites. Afterward, everyone uses what they learned to update the sprite scene from the previous lesson.
In this cumulative project for Chapter 1, the class plans for and develops an interactive greeting card using all of the programming techniques they've learned to this point.