Part 2 of the Chemical Reaction Artifact series. Part 1 describes what an artifact of learning is and why I use them.
I'm not someone who really enjoys being the center of attention. I don't enjoy talking for longer than 5-10 minutes a time during class and yet I found myself being the center of attention talking much more than I would've liked during my classes. I had had enough. The dissonance between how I operate best and how I was actually operating led to the following project.
Students go through the unit on chemical reactions creating a different artifact for each of the three sections in the unit. The artifact must clearly communicate their understanding of the required content. They were free to choose whichever format they felt most comfortable using- most students gravitated towards a wiki-page, PowerPoint presentations, or some form of a newspaper/textbook document.
Documents given to students on day 1 of the project:
I decided early in the planning phases that I would avoid the perhaps more typical model of teaching the material traditionally (notes, lecture, review, etc.) up front, then having students work on a project as the assessment. I wanted the learning process to be wrapped up in the process of creation. However, I needed to support the students' learning. I couldn't just give them the rubric and tell them to get busy- they needed (and desired) some support. I decided to implement two support structures in order to help students while still keeping much of the onus of content learning on them.
Quick & Dirty Overviews. I did a brief (10 minutes max.) explanation of the required content broken down into three sections based upon how I broke down the content in the rubric. In addition to this, on the wiki-page for the project, I embedded an old presentation that I had used several years ago as notes for this section. I explicitly told students that these overviews covered only the bare-bones basics. It was their job to flesh these ideas out, provide examples, images, diagrams, and really show that they've mastered these ideas. These overviews served as a safety blanket for many students. The artifact was big and scary, and the overviews were just a touch of that style of teaching they'd grown used to over their schooling career.
Collaborative Groups. I placed students randomly into groups of three. At the conclusion of each day they worked on their artifacts, they met in their collaborative groups. Their requirements in the groups were to: (1) show each other what they have done of their artifacts so far, (2) help each other find resources for information/images/video, (3) check that everyone is citing their sources appropriately, (4) check that each others' information is correct.
Students were somewhat resistant to meeting in their collaborative groups. They wanted to keep working on their own artifacts, not waste time seeing what other people are doing. Students didn't do a great job of sharing useful links with each other and the thought of (in the future) getting students to use common tags in delicious or diigo crossed my mind. However, I'm unsure whether the time required to get students up to speed on social bookmarking would be worth the possible benefits. What was a major success was simply getting students to see what each other are doing. Getting to see how other people used images, organized their information, cited their sources, and so on seemed to be very helpful to many students.
It'd just be wrong to not have a couple labs when learning about chemical reactions. This section included two labs.
Exothermic and Endothermic Reactions. Students create two chemical reactions; one exothermic (adding yeast to hydrogen peroxide) and one endothermic (dissolving ammonium nitrate into water- it's not really a chemical reaction but it does get very cold).
Types of Chemical Reactions. Five reactions that demonstrate the five basic types of chemical reactions. Clicking the following links takes to you photos taken of the reactions as students performed them:
- Barium chloride + sodium sulfate (double replacement reaction, forms a precipitate)
- Burning magnesium (combustion and synthesis reactions, exothermic)
- Zinc in acid (single replacement reaction)
- includes testing for hydrogen gas with a burning splint (combustion and synthesis reactions)
- Decomposition of sodium bicarbonate (a.k.a baking soda)
- includes testing for carbon dioxide with a burning splint
- Copper (II) chloride + aluminum foil (single replacement reaction, exothermic)
In the end
Students will upload their completed artifacts to the class wiki for all to see. At the time of this writing, students have completed their artifacts, but the upload process will happen this Monday (12/8). When they're all up I'll be sure to share.
My goal is to begin using the class wiki somewhat like a portfolio for student work. Each student will have a page on which they post their artifacts and other assignments completed throughout the year. I'm starting a little late on this for the current semester, but I hope to improve the practice in the future.
- Rubric: Chemical reaction primer
- Chemical reaction primer wiki-page
- A collection of videos and pictures illustrating various chemical reactions
- Put together by myself and students; for use in their artifacts
- Artifact tips and citation information
Part of the Chemical Reaction Artifact series of posts:
- #1: Artifacts of learning
- #2: Chemical reaction primer