National ACS Award Winners 2022 LO Collection
This collection of learning objects was created to celebrate the National ACS Award Winners 2022 who are members of the Division of Inorganic Chemistry. The list of award winners is shown below.
SLiThErs - Supporting Learning with Interactive Teaching: a Hosted, Engaging Roundtable
Chip Nataro / Lafayette College
Thu, 12/17/2020 - 14:18
A collection of all of the IONiC VIPEr SLiThErs (Supporting Learning with Interactive Teaching: a Hosted, Engaging Roundtable). These events are short presentations on a topic followed by a period of discussion between the presenter and live participants. Each of these events is recorded and posted to the IONiC VIPEr YouTube Channel.
Developing student learning goals and assessments for VIPEr learning objects
Description
All VIPEr learning objects are supposed to include clear student learning goals and a suggested way to assess the learning. This "five slides about" provides a brief introduction to the "Understanding by Design" or "backward design" approach to curriculum development and will help you develop your VIPEr learning object.
Coordination Bonding with Main Group Metals(?)
Description
This Literature Discussion considers the synthesis of the first carbene-bismuthinidene complex by Gilliard and coworkers in 2019. This molecule serves as an illustration of different bonding models, as it can be described by multiple resonance structures invoking fully covalent, zwitterionic, and coordinate/dative bonding forms. Students analyze these resonance structures and their geometrical implications, then compare to the experimental structural evidence to come to a conclusion about which bonding model(s) best describe this molecule!
Post-Exam Reflection
Description
This activity is a post-exam reflection that is adapted from the Exam Wrappers created by Marsha Lovett at Carnegie Mellon University. The activity has the students build metacognition skills by analyzing their exam preparation and performance. Then, students work to identify how each of their study strategies had a positive or negative impact to their performance. Finally, they outline a plan for how they will prepare for future exams. If the student would like, these reflections and plans are then discussed with the instructor in 1-on-1 meetings.
SLiThEr #62: Applying to PhD Chemistry Programs
Description
John Anderson (UChicago), Jenny Yang (UC Irvine), and Ian Tonks (UMN) discuss their perspectives on applying to graduate school
SLiThEr #61: Resources for teaching cyberinfrastructure skills in the chemistry curriculum
Description
Here's the video for SLiThEr #61:
SLiThEr #60: A Scientist's Guide to Social Media
Description
This was our 60th SLiThEr!
Moleculuar Computation and Visualization in Undergraduate Education (MoleCVUE)
Description
The MoleCVUE website contains several items that should be of interest to the VIPEr community, especially the activities. Each activity is designed to be ready to deploy in lecture, laboratory, or as homework. There are activities covering all of the major subdisciplines of chemistry (some more than others). Some activities that might be of particular interest to VIPEr are "Group Theory", "VSEPR", and "Electron Configurations of Atoms and Ions". All of the activities are written to use WebMO, but could be adapted for other systems. Most activities are doable with the free or demo versi
Literature Discussion Group Project
Wes Farrell / United States Naval Academy
Mon, 08/05/2024 - 14:23
Description
This is a literature-based end of semester project. After a semester of introducing literature in the form of typical literature discussions, this assignment is given to small groups. It may be easily amended or added to. Each group is provided with a paper and accompanying questions that are similar to the literature discussions they have done over the semester. They then must use these guiding questions to assemble a presentation to the class. The topics chosen and the guiding questions are designed to provide students with a taste of the many areas of inorganic chemistry that are no