How does atomic size affect the energy released during bonding?

Question

Mateo Aguilar · Accepted Answer

An important thing to remember here is that energy is released when bonds are formed !
Now, what does this have to do with atomic size?
Well the larger atoms get, the less likely it is that they will form more than single bonds. This is because a double bond or triple bond is formed from the sideways overlap of p orbitals.

The larger atoms become, these p orbitals will get farther and farther away, meaning that eventually the p orbitals won't overlap! So larger atoms won't form double or triple bonds!

Since double and triple bonds are higher in energy than single bonds, they release more energy when formed than do single bonds.
Therefore, the larger an atom becomes, the less energy will be released during the formation of bonds, because they are only able to form single bonds.

Olivia Anton · Answer

undefined Atomic size affects the energy released during bonding through the concept of bond length and bond strength. Generally, larger atoms have longer bond lengths and weaker bonds, resulting in lower energy release during bonding. Conversely, smaller atoms have shorter bond lengths and stronger bonds, leading to higher energy release during bonding.