Question
When these species have ambiguous oxidation states, they are called non-innocent. M. L. H. Green’s covalent bond classification method characterizes these species as L, X, or Z, based on if they are electron acceptors or donors. These species are often illustrated as bases using hard soft acid base theory. The ability of these species to be bound at multiple sites results in (*) linkage isomerism. The presence of these species tends to produce absorbances in the visible range due to d-orbital splitting. When they can bind at multiple sites, these species have higher denticity, which may allow for chelation. For 10 points, name these species that bind metal atoms in coordination complexes. ■END■
ANSWER: ligands
<AW, Chemistry>
= Average correct buzz position
Summary
| 2023 ILLIAC (Cornell) | 2023-10-21 | Y | 4 | 100% | 0% | 0% | 103.00 |
| 2023 ILLIAC (Mainsite) | 2023-10-21 | Y | 8 | 75% | 0% | 0% | 87.67 |
Buzzes
| Player | Team | Opponent | Buzz Position | Value |
|---|---|---|---|---|
| Yashwanth Bajji | Michigan A | Ohio State B | 63 | 10 |
| Neal Joshi | WUSTL | Chicago B | 80 | 10 |
| Braden Booth | Missouri | Purdue A | 83 | 10 |
| Darryl Wang | Rochester A | Rochester B | 92 | 10 |
| Matt Schiavone | Purdue B | Ohio State A | 94 | 10 |
| Ezra Santos | Chicago C | SIUE B | 97 | 10 |
| Cade Reinberger | RIT | Rochester C | 102 | 10 |
| Forrest Weintraub | Columbia Ly-α | Cornell Fire | 107 | 10 |
| Matthew Westley | Purdue C | Chicago A | 109 | 10 |
| Raymond Wang | Cornell Earth | Cornell Wind | 111 | 10 |
| Logan Mathis | SIUE A | Chicago D | 111 | 0 |
| Carter Herron | Chicago D | SIUE A | 111 | 0 |
| Cole Polley | Michigan B | Ohio State C | 111 | 0 |
| Jacob Goodson | Ohio State C | Michigan B | 111 | 0 |