I facilitate a working group of chemistry teachers in the New York area and we recently created our own activity surrounding the topic of oxidation. The goal of the probe was to force students to think about what the meaning of oxidation is, as well as to allow students to engage in the science and engineering practice of argumentation. This was an introductory lesson to my oxidation and reduction unit prior to students learning the terms oxidation and reduction.
chemical education research
Developing PCK requires a certain level of subject matter knowledge, and teachers have a different understanding of subject matter than a person who specializes in that same field. A chemistry teacher and a ‘practicing’ chemist both have subject matter knowledge in chemistry; however, the knowledge is applied differently.
Many researchers have attempted to characterize the knowledge of an expert teacher, and it's complex, to say the least.
I think that most people can recall someone whom we considered to be a great teacher. The kind of person who inspired us and motivated us to learn. As I started my career, I remember wondering what kind of teacher my students thought I was.
I am already planning for my trip to Illinois in July to attend ChemEd 2019! Let me tell you why I want to attend.
In an effort to implement the science and engineering practices of the NGSS, I have tried to introduce argumentation as a practice into my chemistry courses. I share some growing pains and what I have learned through the process in this blog post.
Erica Jacobsen shares highlights from the October 2018 issue of the Journal of Chemical Education.
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.
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.