The reason behind that the atoms in a single bond can rotate about inter nuclear axis without breaking the bond is to be described. The reason behind that the atoms in a double and triple bond cannot rotate about inter nuclear axis unless the bond is broken is to be described. Concept introduction: Sigma bond is defined as axial overlapping of atomic orbitals. This orbital overlaps along the inter-nuclear axis. π bond is defined as the sideway overlapping of atomic orbitals. This orbital overlaps along the perpendicular of inter-nuclear axis. To determine: The explanation that the atoms in a single bond can rotate about inter nuclear axis without breaking the bond. The explanation that the atoms in a double and triple bond cannot rotate about the internuclear axis unless the bond is broken.
The reason behind that the atoms in a single bond can rotate about inter nuclear axis without breaking the bond is to be described. The reason behind that the atoms in a double and triple bond cannot rotate about inter nuclear axis unless the bond is broken is to be described. Concept introduction: Sigma bond is defined as axial overlapping of atomic orbitals. This orbital overlaps along the inter-nuclear axis. π bond is defined as the sideway overlapping of atomic orbitals. This orbital overlaps along the perpendicular of inter-nuclear axis. To determine: The explanation that the atoms in a single bond can rotate about inter nuclear axis without breaking the bond. The explanation that the atoms in a double and triple bond cannot rotate about the internuclear axis unless the bond is broken.
Solution Summary: The author explains that atoms in a single bond can rotate about inter-nuclear axis without breaking the bond.
Interpretation: The reason behind that the atoms in a single bond can rotate about inter nuclear axis without breaking the bond is to be described. The reason behind that the atoms in a double and triple bond cannot rotate about inter nuclear axis unless the bond is broken is to be described.
Concept introduction: Sigma bond is defined as axial overlapping of atomic orbitals. This orbital overlaps along the inter-nuclear axis.
π bond is defined as the sideway overlapping of atomic orbitals. This orbital overlaps along the perpendicular of inter-nuclear axis.
To determine: The explanation that the atoms in a single bond can rotate about inter nuclear axis without breaking the bond. The explanation that the atoms in a double and triple bond cannot rotate about the internuclear axis unless the bond is broken.
Why is rotation about the bond axis possible for single-bonded atoms but not double-bonded atoms?
Define bond order? What does it tells .
Complete the table below, which lists information about some diatomic molecules or molecular ions.
In particular:
• Decide whether each molecule is stable or not.
• Decide whether each molecule would be diamagnetic or paramagnetic.
• Calculate each molecule's bond order.
diamagnetic or
paramagnetic?
molecule
stable?
bond order
Oyes
diamagnetic
H,
no
paramagnetic
yes
diamagnetic
B,
no
paramagnetic
yes
diamagnetic
He,
no
paramagnetic
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.