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Deck 8: Advanced Theories of Covalent Bonding
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Deck 8: Advanced Theories of Covalent Bonding
1
Which statement best describe the structure of a carbonate anion? Outcome # 12) DOK 3)
A) The electron geometry of carbon in a carbonate anion is trigonal planar with a sp2 hybridization and bond angles are 120°. There is a π-bond formed between a non-hybridized "C" p-orbital overlapping with an "O" p-orbital.
B) The electron geometry of carbon in a carbonate anion is trigonal planar with a sp2 hybridization and bond angles are <120°. There is a π-bond formed between a non-hybridized "C" p-orbital overlapping with an "O" p-orbital.
C) The electron geometry of carbon in a carbonate anion is trigonal planar with a sp2 hybridization and bond angles are <120°. There is a π-bond formed between a hybridized "C" p-orbital overlapping with an "O" p-orbital.
A) The electron geometry of carbon in a carbonate anion is trigonal planar with a sp2 hybridization and bond angles are 120°. There is a π-bond formed between a non-hybridized "C" p-orbital overlapping with an "O" p-orbital.
B) The electron geometry of carbon in a carbonate anion is trigonal planar with a sp2 hybridization and bond angles are <120°. There is a π-bond formed between a non-hybridized "C" p-orbital overlapping with an "O" p-orbital.
C) The electron geometry of carbon in a carbonate anion is trigonal planar with a sp2 hybridization and bond angles are <120°. There is a π-bond formed between a hybridized "C" p-orbital overlapping with an "O" p-orbital.
The electron geometry of carbon in a carbonate anion is trigonal planar with a sp2 hybridization and bond angles are 120°. There is a π-bond formed between a non-hybridized "C" p-orbital overlapping with an "O" p-orbital.
2
Which element contains triple covalent bonds? Outcome # 9) DOK 1)
A) oxygen
B) nitrogen
C) iodine
A) oxygen
B) nitrogen
C) iodine
nitrogen
3
Based on valence bond theory, which statement best describes the electron geometry, bonding and hybridization of the central atom in carbon tetrachloride? Outcome # 12) DOK 3)
A) The electron geometry of carbon in carbon tetrachloride is tetrahedral with a sp3 hybridization. The C-Cl bond is of σ-character.
B) The electron geometry of carbon in carbon tetrachloride is tetrahedral with a sp2 hybridization. The C-Cl bond is of σ-character.
C) The electron geometry of carbon in carbon tetrachloride is tetrahedral with a sp3 hybridization. The C-Cl bond is of π-character.
A) The electron geometry of carbon in carbon tetrachloride is tetrahedral with a sp3 hybridization. The C-Cl bond is of σ-character.
B) The electron geometry of carbon in carbon tetrachloride is tetrahedral with a sp2 hybridization. The C-Cl bond is of σ-character.
C) The electron geometry of carbon in carbon tetrachloride is tetrahedral with a sp3 hybridization. The C-Cl bond is of π-character.
The electron geometry of carbon in carbon tetrachloride is tetrahedral with a sp3 hybridization. The C-Cl bond is of σ-character.
4
Based on valence bond theory, which statement best describes the electron geometry and hybridization of the central atoms) in acetylene? Outcome # 12) DOK 2)
A) The electron geometry of the 2 carbons in acetylene is tetrahedral with a sp3 hybridization.
B) The electron geometry of the 2 carbons in acetylene is trigonal planar with a sp2 hybridization.
C) The electron geometry of the 2 carbons in acetylene is linear with a sp hybridization.
A) The electron geometry of the 2 carbons in acetylene is tetrahedral with a sp3 hybridization.
B) The electron geometry of the 2 carbons in acetylene is trigonal planar with a sp2 hybridization.
C) The electron geometry of the 2 carbons in acetylene is linear with a sp hybridization.
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5
Based on valence bond theory, what is the hybridization of the central atoms) in C2F4? Outcome # 12) DOK 1)
A) both carbons are sp2
B) both carbons are sp3
C) one carbon is sp3 and the other carbon is sp2
A) both carbons are sp2
B) both carbons are sp3
C) one carbon is sp3 and the other carbon is sp2
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