The September 2018 issue of the Journal of Chemical Education is now available online to subscribers. Topics featured in this issue include: reticular chemistry; laboratory research experience for students; historical perspective; chemistry and the environment; laboratories using color to understand chemistry; electrochemistry laboratories; DIY instrumentation; organic semiconductors; orbitals; computer-based learning and computational chemistry; from the archives: paper chromatography.
chemical education research
Technological Pedagogical Content Knowledge (TPCK) can be the vehicle by which teachers decide if and how a technological application can be incorporated into their classrooms. TPCK more recently coined as TPACK technology, pedagogy and content knowledge incorporates technology into Lee Shulman’s pedagogical content knowledge (PCK) construct. PCK is the means by which a teacher takes his/her content knowledge and transforms it into content knowledge for his/her students.
Adapting Assessment Tasks to Support Three-Dimensional Learning is an open-access Editors' Choice article published in the February 2018 issue of the Journal of Chemical Education. The authors outline steps to help teachers modify their old assessment questions that require students to use core ideas, scientific practices and crosscutting concepts to provide evidence they have learned the required content.
In this blog post, I share how I use an article from Dr. Peter Atkins, "Chemistry's Core Ideas." My IB Chemistry students read the article early in our program - and then revisit the article numerous times throughout our two-year course. The Google Slide document my students use is included in the supporting information.
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 research says the best way to make your school better is to encourage teachers to participate in professional learning teams that unpack the standards to determine what each student should learn and how the learning will be measured, build a useful warehouse of evidence that learning is occurring, and critically review data collected to determine useful instructional strategies versus ineffective strategies.
When I first started teaching I was very fortunate that a local teacher invited me to a high school chemistry teachers meeting. I was really young and really motivated to be a better teacher. I registered immediately and went to an all day event. I think I learned more that day than I did in all of my teacher training.
I will share how I use the Target Inquiry activity, Change You Can Believe In. I have realized that I need to include particulate models within the assessments after the lab to fully evaluate my student's conceptual understanding.