For the same value of n, the penetration power of orbital follows the order
Answers
Explanation:
Therefore, for the same shell value (n) the penetrating power of an electron follows this trend in subshells: s>p>d>f And for different values of shell (n) and subshell (l), penetrating power of an electron follows this trend: 1s>2s>2p>3s>3p>4s>3d>4p>5s>4d>5p>6s>4f.... and the energy of an electron for each shell and.
Answer:
Penetration power of orbitals is their capacity to draw an electron. Energy is released in association with this process. Compared to the p, d, and f orbitals, the s orbital has the greatest penetration impact because of its proximity to the nucleus.
Explanation:
The term "penetration power" refers to an orbital's tendency to draw electrons.
The s-orbital electron has the greatest penetration impact. This is a result of the p, d, and f orbitals being closer to the nucleus than they are.
As a result, the s-electron releases more energy than other orbitals as a result of its larger penetration effect.
Additionally, removing electrons from the s-orbital requires more energy than from other orbitals.
As a result, the penetrating power gets weaker in the order s > p > d > f.
Thus, the increasing order of penetrating power is f < d < p < s.
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