| 31. | It is common for early metals to adopt high coordination numbers ( more than 6 ) with compact ligands.
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| 32. | If the coordination number is not known, a typical coordination number for the atom can be used instead.
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| 33. | If the coordination number is not known, a typical coordination number for the atom can be used instead.
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| 34. | When the surrounding ligands are much smaller than the central atom, even higher coordination numbers may be possible.
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| 35. | The average sulfur coordination number is greater than two; sulfide glasses usually have coordination numbers less than two.
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| 36. | The average sulfur coordination number is greater than two; sulfide glasses usually have coordination numbers less than two.
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| 37. | Due to their large size, lanthanides, actinides, and early transition metals tend to have high coordination numbers.
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| 38. | A coordination number of 12 is found in a cubic close-packed or a hexagonal close-packed structure.
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| 39. | Typically, elements capable of variable coordination number and / or oxidation states tend to exhibit greater numbers of allotropic forms.
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| 40. | Like iron, ruthenium does not readily form oxoanions, and prefers to achieve high coordination numbers with hydroxide ions instead.
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