While teaching chapters 17-18, I have shown students the versatility of carbonyls and enolate chemistry. The discussion in Karty’s book is arranged well and does a nice job of spotlighting the chemistry unique to carbonyls, especially as it ranges from selective addition (direct or conjugate) to the use of enolates for alkylation and halogenation. In … Continue reading Are pKa’s Necessary to Succeed in the Classroom?
At this point in the semester, my class has progressed past their first exam, and I have helped students on all points of content mastery. In those interactions, I have heard a number of things to make me wonder…what is the most effective way to learn the content? Do students prefer the cause-and-effect perspective or … Continue reading What is most effective: Cause and Effect or Named Reactions?
Williamson ether synthesis at the basic leave is rooted in the conditions of an SN2 reaction. However, students still struggle with the content. I have found myself trying to remind my class of the basics. I am quite fond of the Karty text, and have tried to compliment the book mechanics with some organically-flavored A … Continue reading A, B, C’s of Williamson Ether Synthesis
I am not sure if other instructors have this issue, but how do you connect students back to the content? Sometimes I wonder if the first week of the spring semester is worse than the first week of the fall semester. My class ended the semester on chapter 9 content, while my colleague left the … Continue reading Break-Brain: How Do Instructors Reconnect Students to the Content
When teaching, I try to foster real-life applications between the material and students’ experiences. I try to channel my inner Ms. Frizzle, a quirky teacher from The Magic School Bus, which is a throwback to my childhood. Today’s students may not be as aware of the television show, but I still like to embody Ms. … Continue reading How Do You Foster Real-Life Connections between the Material and Students’ Worlds?
Oftentimes, when I talk with students, I compare the organic chemistry lecture series to a study-abroad experience: the first semester is when students learn the language, and the second semester is when they become immersed in the content. Within this dichotomy, I view nomenclature as a vocabulary-learning process (e.g., ketones, carboxylic acids, alcohols, and so … Continue reading Nomenclature: Can It Be Taught alongside Mechanisms and Synthesis?
Rarely are real-world applications of chemistry emphasized enough in the mainstream organic chemistry course. This can explain why students tend to view chemistry as structures on the page or as schemes drawn on the white board. A strictly two-dimensional discussion of chemistry can be one of the reasons that students struggle to connect what they … Continue reading Chemistry in the Real World: Applications That Bring Life to the Page
Teach the Mechanism is a platform for Joel Karty and organic chemistry educators to share their experiences and discuss the benefits of a mechanistically organized course. By inviting professors from a wide variety of schools to be guest bloggers, we accomplish an array of topics and unique perspectives. Please get to know Joel Karty and … Continue reading About
In the past four weeks, our time in lecture has been spent bridging the gap between principles (general chemistry) and preparing for the first exam. One topic that has a recurring theme between the two is hybridization. I have noticed two major groups of students: (1) those who need review, and (2) those who are … Continue reading The How-Tos of Hybridization
Active learning at Columbus State University (CSU) has been implemented in a variety of ways through both the flipped-classroom and HyFlex environments. The flipped-classroom model has been instituted since Fall 2017, and I have valued my experiences as an instructor in this kind of educational setting. The main tools that I use to successfully adopt … Continue reading Active Learning: Its Benefits in Organic Chemistry