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, 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.
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This lesson introduces the process the class will use to design games for the remainder of the unit. The class walks through this process in a series of levels. As part of this lesson the class also briefly learns to use multi-frame animations in the Game Lab. At the end of the lesson, they have an opportunity to make improvements to the game to make it their own.
In this multi-day lesson, the class uses the problem-solving process from Unit 1 to create a platform jumper game. After looking at a sample game, the class defines what their games will look like and uses a structured process to build them. Finally, the class reflects on how the games could be improved and implements those changes.
The class plans and builds original games using the project guide from the previous two lessons. Working individually or in pairs, the class plans, develops, and gives feedback on the games. After incorporating the peer feedback, the class shares out the completed games.
After a brief review of how the counter pattern is used to move sprites, the class is introduced to the properties that set velocity and rotation speed directly. As they use these new properties in different ways, they build up the skills they need to create a basic side scroller game.
The class learns to combine the velocity properties of sprites with the counter pattern to create more complex sprite movement, such as simulating gravity, making a sprite jump, and allowing a sprite to float left or right. In the final levels, the class combines these movements to animate and control a single sprite and build a simple game in which a character flies around and collects coins.
The class programs their sprites to interact in new ways. After a brief review of how they used the isTouching block, the class brainstorms other ways that two sprites could interact. They then use isTouching to make one sprite push another across the screen before practicing with the four collision blocks (collide, displace, bounce, and bounceOff).
This lesson covers functions as a way to organize code, make it more readable, and remove repeated blocks of code. The class learns that higher level or more abstract steps make it easier to understand and reason about steps, then begins to create functions in Game Lab. At the end of the lesson, the class uses these skills to organize and add functionality to the final version of their side scroller game.
In order to create more interesting and detailed images, the class is introduced to the sprite object. Every sprite can be assigned an image to show, and sprites also keep track of multiple values about themselves, which will prove useful when making animations. At the end of the lesson, everyone creates a scene using sprites.
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.