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Bootstrap:1 applies mathematical concepts and rigorous programming principles to creating a simple vidoegame, and is aligned to Common Core Standards for Mathematics -- including the new standards for Mathematical Practice! Bootstrap:2 goes deeper into programming, building events and data structures on top of the foundation laid by Bootstrap:1 and allowing students to build far more sophisticated programs. We've listed the breakdown of concepts in the table below, so you can find the best fit for your class.
As an in-school curriculum, delivering Bootstrap afterschool can be tricky. These programs often have lower requirements for attendance and rigor, and you will need to address parent and student expectations explictly. You should plan on at least 90min/wk (coupled with strong attendance requirements) for a successful implementation. Most importantly, delivering a formal curriculum in an informal setting places even more pressure on the training of the instructor. We strongly recommend that any afterschool educator attend a Bootstrap training before starting their class.
Starting with Bootstrap:1...
Students create a simple, 3-character game involving a player, a target and a danger. They design what each character looks like, and use algebraic concepts to detect collisions, handle keystrokes, and determine how they move and interact.
Order of Operations
Domain and Range
Inequalities in the Plane
Numbers, Strings and Images
Continuing to Bootstrap:2...
Students learn how the world-based event loop that drives their Bootstrap 1 game works, and use it to create animations using simple datatypes for their world. They then learn about data structures, and design a World structure for a sophisticated game of their own design.
Complex functional relationships
Connections to Trigonometry
Connections to recursion, lists, and algorithms
If you've completed the entire Bootstrap curriculum, you'll be happy to know that your class can move on to advanced material, without needing to learn a new language! Here are just a few of the options available to Bootstrap teachers:
Picturing Programs focuses heavily on images and animation, as students explore recursion, lists, trees and algorithms -- all using the same language and Design Recipe they've learned in Bootstrap.
How to Design Programs is a textbook aimed at more college-level audiences, going beyond the material covered in Picturing Programs. HtDP is currently in its second edition, and the material is being actively updated.
Bootstrap uses WeScheme, a cloud-based IDE that requires no downloading or installation. Anyone with a Gmail account can start developing with WeScheme, storing and retrieving files from the cloud and doing all of their editing in a modern browser. Additionally, WeScheme programs can be shared simply by sending out a link, or posting it to sites such as Facebook, Reddit, Twitter, etc.
Want to run everything locally? Bootstrap also supports DrRacket, a multi-platform graphical environment. DrRacket runs on all major platforms (Windows, OS X, Unix/Linux) and programs written for one platform run seamlessly on the others, supporting a wide variety of classroom and home computing scenarios. Its emphasis on beginner-friendly features and support for images makes it ideal for Bootstrap.
A tool designed for learning should be accessible to all students. We work hard to ensure that our software environments are compatible with screen-readers on popular operating systems.