In the zinc orbital diagram, the 1s subshell accommodates two electrons, the 2s subshell carries another pair, the 2p subshell encompasses six electrons, the 3s subshell contains two electrons, the 3p subshell carries six electrons, the 4s subshell holds two electrons, and the 3d subshell accommodates ten electrons, totaling thirty electrons.
When depicting the zinc orbital diagram, start by determining the number of electrons from the periodic table. Use the electron configuration for reference and follow the three fundamental rules: the Aufbau principle, Pauli exclusion principle, and Hund’s rule. This systematic approach ensures an accurate representation of zinc’s orbital arrangement.
Steps
Find electrons
The atomic number of zinc represents the total number of electrons of zinc. Since the atomic number of zinc is 30, the total electrons of zinc are 30.
Write electron configuration
The electron configuration of zinc is 1s2 2s2 2p6 3s2 3p6 4s2 3d10.
Now in the next step, start drawing the orbital diagram for zinc.
Draw orbital diagram
Before drawing the orbital diagram, you should know the three general rules.
- Aufbau principle – electrons are first filled in lowest energy orbital and then in higher energy orbital
- Pauli exclusion principle – two electrons with the same spin can not occupy the same orbital
- Hund’s rule – each orbital should be first filled with one electron before being paired with a second electron
Also, you should know the number of orbitals in each subshell.
We can calculate the number of orbitals in each subshell using the formula: 2ℓ + 1
Where, ℓ = azimuthal quantum number of the subshell
For s subshell, ℓ = 0
For p subshell, ℓ = 1
For d subshell, ℓ = 2
For f subshell, ℓ = 3
So each s subshell has one orbital, each p subshell has three orbitals, each d subshell has five orbitals, and each f subshell has seven orbitals.
Now start to draw!
As mentioned above, the electron configuration of zinc is 1s2 2s2 2p6 3s2 3p6 4s2 3d10. Hence, draw the blank orbital diagram of zinc up to 3d subshell as follows:
In the above orbital diagram, the box represents an orbital. Each orbital has a capacity of two electrons. And the arrows (↑↓) are drawn inside the box to represent electrons.
Now 1s2 indicates that the 1s subshell has 2 electrons. So draw two arrows in the 1s box showing two electrons as follows:
2s2 indicates that the 2s subshell has 2 electrons. So draw two arrows in the 2s box showing two electrons as follows:
2p6 indicates that the 2p subshell has 6 electrons. So draw six arrows in the 2p box showing six electrons as follows:
3s2 indicates that the 3s subshell has 2 electrons. So draw two arrows in the 3s box showing two electrons as follows:
3p6 indicates that the 3p subshell has 6 electrons. So draw six arrows in the 3p box showing six electrons as follows:
4s2 indicates that the 4s subshell has 2 electrons. So draw two arrows in the 4s box showing two electrons as follows:
3d10 indicates that the 3d subshell has 10 electrons. So draw ten arrows in the 3d box showing ten electrons as follows:
That’s it! This is the final orbital diagram of zinc as we have used all 30 electrons.
Next: Zirconium orbital diagram
Related
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External links
- https://www.numerade.com/ask/question/choose-the-valence-orbital-diagram-that-represents-the-ground-state-of-zn-hm-dell-73767/
- https://www.chegg.com/homework-help/questions-and-answers/choose-orbital-diagram-represents-zinc-ion-zn2-11-11-11-11-11-11-3d-4s-11-11-b-111-2p-2s-1-q92453388
Deep
Learnool.com was founded by Deep Rana, who is a mechanical engineer by profession and a blogger by passion. He has a good conceptual knowledge on different educational topics and he provides the same on this website. He loves to learn something new everyday and believes that the best utilization of free time is developing a new skill.