Student Lab Development Rubric
By allowing my students to assess other students' work and then providing them with a Student Lab Development Rubric to evaluate their own work, they learn to design and refine high-quality experimental procedures. The Student Lab Development Rubric is one of the tools I use to help students build the experiments they've created and then display results and lab analyses. When students are the ones dictating how they will conduct their experiments, they invest more fully in the activity and come to realize that science involves constant critical analysis and reiteration. I like to move conversations away from "right" and "wrong" and more towards how we can improve each component of our lab activities. Initially, some students feel uncomfortable identifying that their work isn't up to the high standards of the rubric, but over time most come to realize that this process helps them improve their final products and understand the underlying purpose behind labs.
At the end of any collaborative activity, each student makes a copy of this Teamwork Evaluation Rubric and fills out the boxes with his/her thoughts on the overall quality of their group's teamwork. The rubric includes multiple indicators of high-quality teamwork and encoruages discussion about how to improve future iterations. Indicators include noise level (framed as concern for other group's ability to work effectively), quality of work produced, overall teamwork, and level of grit. Students assess their own contributions to their collaborative assignment as well as their teammates' contributions. Students can insert glows and grows where they explicitly discuss their feelings regarding their own work and the work of their peers. I frame this activity as a team-building exercise. Evaluating collaborative assignments can be complicated. The Teamwork Evaluation Rubric allows me to collect a good deal of data about individual student's contributions from multiple perspectives, which is both a fair and thorough way to assess individuals and the team as a whole.
Chemistry is a combination of the comprehension of scientific content and the application of mathematics to those concepts. My students have to be prepared to think deeply about difficult concepts the minute they step into my room. Starting the class with a relevant "Catalyst" helps them initiate their own thinking processes in preparation for a productive day in the same way that biological enzymes catalyze chemical reactions. During The Catalyst, I model my thinking process for how to approach a mathematical problem by having my students identify the key steps in the calculation and establish a foundation that students who struggle with math can fall back on when they're confused.
I have weekly check-in's with students about how they are progressing through the lessons. This ensure face-to-face time with each student and allows me to hold them accountable to the goals they are setting. I ask a standard set of questions "What lesson are you on today?", "What lesson do you plan on being on in a week" ,"Is there anything you need to help you reach your goal?" I record all their answers and keep a running log so I can refer back to these notes each time I conference with a student.