Students in my self-paced blended classroom work in groups every day to complete a series of activities we call "Learning Stations." Learning Stations provide multiple ways in which my students can demonstrate mastery and build a digital portfolio of content to draw on throughout the year. By creating groups in which my students are paired up according to their supported reading and lexile levels, I foster a collaborative culture in which students don't feel singled out and high quality products can be produced by all groups. To alleviate the stress that sometimes accompanies engagement with highly targeted, rigorous activities, I allow my students to choose Station activities that most appropriately address the Learning Targets (please see the "Learning Targets" strategy video) they might struggle with or want to improve in. Reinforcing Station Expectations with explicit instructions at the beginning of each class is a strategy that ensures that my students understand what is expected of them during the period.
Many students fall behind the class pace as the school year progresses, so I build in time to the class schedule for students to catch up. Before or after a break or towards the end of a trimester I won't move the lesson pace forward, giving students the opportunity to get back on pace.
To give students greater independence, there is an answer key for the practice problems of every lesson. I know what a lot of teachers are thinking at this point: what if the student just copy all their answers from the answer key? As an Algebra teacher told me when I asked them the same question before starting flipped mastery, they'll just fail the mastery quiz. It only takes a few correctional assignments for them to realize that the answer key is there to check answers, not copy them.
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.