Chemistry: Transition metals and the crystal field model. Strong-field case and weak-field case; low-spin case and high-spin case; paramagnetism and diamagnetism; spectrochemical series; colors of complex ions. The localized electron model of bonding in complex ions, also known as the valence bond model This is a recording of a tutoring session, posted with the students' permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: http://www.freelance-teacher.com/videos.htm For a printable document containing the figures discussed in this video series, go to my website. For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: http://www.youtube.com/watch?v=OXgkaVeb8fo&feature=PlayList&p=8C0114CAE5BCA8FC&playnext_from=PL&index=0&playnext=1 (1) Introduction. Hund's rule (2) Application of crystal field theory to octahedral complexes (3) Continued; strong-field case and weak-field case (4) An example (5) Continued; low-spin case and high-spin case (6) Another example; paramagnetic vs. diamagnetic; spectrochemical series (7) Effect of metal ion charge on Δ. Another example (8) How crystal field theory accounts for the colors of complex ions; the color wheel (9) Continued; complementary colors; an example (10) Crystal field model for tetrahedral geometry (11) Continued; an example. Crystal field diagrams for square planar and linear complexes (12) The localized electron model of bonding in complex ions, also known as the valence bond model (13) Continued
Questions about Transition metals and the crystal field model (7)
Want more info about Transition metals and the crystal field model (7)?
Get free advice from education experts and Noodle community members.