Do you want to show your students beautiful illustrations of atomic orbitals? My favorite place to go is the Orbitron, Mark Winter's gallery of AOs and MOs on the web. Not only can you see images, but you can link to different representations of the wave functions and electron density functions.
Flash is required for this site.
Hilary first higlighted this resource as a news item before we had a web resource category. I'd like to bring it back to people's attention as a web resource because of its value.
The NIST (National Institute of Standards and Technology) Standard Reference Databases provides valuable resources. Two resources were specifically mentioned by respondents to the 2013 Inorganic Curriculum Survey: the webbook and the stability constants of metal complexes. Some of the data in the Chemistry WebBook include
The resources on this website will help students learn concepts in materials chemistry, solid state chemistry, and nanoscience. The website provides links to
In the 2013 Inorganic Curriculum Survey, respondents were asked about the resources they used when they teach inorganic chemistry. About 20% of respondents selected "other" and provided information about these resources. A number of people mentioned specific websites. This collection consists of the websites submitted in the survey.
Asking students to work in groups and developing group projects is always challenging. This 5-slides about describes approaches for increasing the effectiveness and success of student groups. It also contains some helpful links to resources on how to form groups and help students develop group skills.
Groups of 3-4 students follow this handout to create models of the 7 crystal systems and the 14 Bravais lattices using DOTS gumdrops, bamboo skewers and wood toothpicks.
A series of JAVA applets of Tanbe-Sugano diagrams were developed by Prof. Robert Lancashire at the University of the West Indies. These diagrams allow students to determine deltao/B values based on ratios of peak energies without the pain of rulers and drawing lines. There are also features that allow a person to input values and automatically calculate certain parameters. You can also quickly find values of delta_o and B for certain complexes via a drop-down menu on some of the pages (e.g. Cr3+ complexes).
This is a simple activity designed to help students visualize the interaction of atomic orbitals to form molecular orbitals. Students construct atomic orbitals out of Play-Doh and determine whether overlap of a given pairs of atomic orbitals along the specified axis can result in a σ, π, or δ interaction or no net interaction. I do this activity following a reading assignment and lecture on the formation of molecular orbitals from atomic orbitals that cover the various types of interactions. Students then work in groups of 3-4 to complete the instructions described on the attached worksh
This lab was part of the materials science portion of my second-year inorganic chemistry course. Students synthesize a zeolite structure and grow a chemical garden as examples of silicate chemistry.