Asked by Dorothy Dietrich on May 25, 2024
Verified
What two atomic orbitals or hybrid atomic orbitals overlap to form the C-C π bond in ethylene?
A) C sp3 + C sp3
B) C sp3 + C sp2
C) C sp2 + C sp2
D) C sp2 + C p
E) C p + C p
Atomic Orbitals
Mathematical functions describing the location and wave-like behavior of an electron in an atom.
Hybrid Atomic Orbitals
A concept in chemistry where atomic orbitals mix to form new, hybrid orbitals that are used to describe the bonding in molecules.
C-C π Bond
A C-C π bond is a type of covalent bond formed from the sideways overlap of p-orbitals, allowing for electron sharing between carbon atoms in double or triple bonds.
- Understand the fundamentals of atomic and hybrid orbitals' interaction in creating sigma and pi bonds.
Verified Answer
AL
aynaz lotfataMay 29, 2024
Final Answer :
E
Explanation :
The π bond in ethylene is formed by the sideways overlap of p orbitals from each carbon atom, which are not hybridized. This is represented by option E, where "C p + C p" indicates the overlap of p orbitals from two carbon atoms.
Learning Objectives
- Understand the fundamentals of atomic and hybrid orbitals' interaction in creating sigma and pi bonds.