The chemical education research article, Concept Inventories: Predicting the Wrong Answer May Boost Performance, authored by Vicente Talanquer, was recently published in the Journal of Chemical Education.
I allowed my students to choose between two separation type laboratories. About two thirds of the class chose to separate the flavoring out of a grape of cherry soda. The rest of the students used paper chromatography to determine if red-40 dye was in a specific type of candy.
Beyond Appearances: Students’ Misconceptions about Basic Chemical Ideas on the Royal Society of Chemistry’s website has proven a wonderfully handy document to have around. The report is the work of Dr. Vanessa Kind of Durham University (formerly of The University of London) and briefly summarizes student misconceptions and possible pedagogical remedies in eleven different content areas.
The authors of the recent Journal of Chemical Education article, PolymerDay: Outreach Experiments for High School Students, offer a collection of interactive polymer activities designed to be part of an all-day outreach event for high school students. For teachers that might use the activities on separate occasions and/or as part of their curriculum, the authors recommend an accessible resource to support that work.
This is an ACS Authors' Choice article and is open access to all.
Every day, one new peer-reviewed research article from any ACS journal will be selected to be freely available and remain open access for all to read. These articles are selected based upon recommendations by editors of ACS Journals and made available as a service to the global research community.
Check out these experiments that are very easy to perform and also related to the themes for National Chemistry Week in both 2017, Chemistry Rocks and 2018 Chemistry is Out of this World!
In January of 2017, Chad Hustings wrote a blog post, Isotopes, Nuts, Bolts and Eggs, about an activity some colleagues and I had shared in a workshop at BCCE in 2016. With encouragement from many ChemEd X readers that wanted to try the activity for themselves, I am sharing more details and a student handout.
About 30-40 minutes for the activity. This depends on how many balances are available to share and how many different isotopes are made for a single element. We had 5 balances for 12 or 13 teams of two students. Students can work in groups of 3 as well.
Whenever I’m asked where I live and what I do, I answer with “I’m a teacher overseas.” The immediate response from people is “English? Peace Corps?” I am a high school science teacher at the American School of Dubai. There is a misconception that teaching somewhere else in the world is drastically different than teaching right in your backyard, and it really isn’t.