How to Write Ground State Electron Configuration in Chemistry (2024)

Table of Contents

Electron configuration is the electron arrangement in an atom. We shall focus on The Ground state electron configuration. It is the base to understand the molecular bonding, structures, and properties.

The ground-state electron configuration enlightens many different atomic properties from the electrons present in an atom to the different orbital and hybridization.

Understanding the Ground state electron configuration leads to understanding atomic structure and theperiodic tablewhich is the base of everything in chemistry.

What are Electrons?

Electron is a sub-atomic particle with a negative charge. An essential part of every atom which carries the electricity.

There are two Electron states:

Ground Electron state: The electron configuration of an atom at the lowest energy possible.
Excited Electron state: The electron configuration of an atom at the highest energy possible

More terminologies:

Valence Electrons: they travel farthest from the nucleus. Valence electrons are used in bonding. They are the highest energy electrons.
Core Electrons: Core electrons are chemically static in normal reaction conditions and are filled with inner energy levels.

What are orbitals?

The circles around the nucleus where the electrons revolve in the atom are called the orbitals. The orbitals have different shapes and orientations. Each orbital can have 2 electrons. The number of electrons can be increased depending on the orbital size.

This can be calculated with a simple formula:

Number of orbitals x 2 electrons = number of total electrons in the orbital.

For each principal quantum number, n, there is:

Thesorbital is the first orbital around the nucleus.sorbital can have 2 electrons.
Theporbital is the second orbital. It can have 6 electrons.
Thedorbital can hold 10 electrons. It is the next orbital afterporbital.
forbital comes afterdorbital. It can hold 14 electrons (2 electrons each orbit).

How to Write Ground State Electron Configuration in Chemistry (1)

What is the principal Quantum number?

Quantum number is used to describe the energy levels available in atoms and molecules. Fundamentally, an electron has four quantum numbers. It is used to describe the state and draw solutions to the Schrödinger wave equation.

There are four quantum numbers; n,l,m_l, andm_s.

The principal quantum number (n):

NieL Bohr’s Assumption:

Niels Bohr assumed that only the principal quantum numberndecides the energy of an electron. This assumption is, however, true only for the Bohr’s hydrogen atom and other hydrogen-like atoms.

When we are dealing with the multi-electron system we have to consider the electron-to-electron interaction. Because the energy of an electron is determined by 2 things:

Principal Quantum Numbern
The Angular Momentum Quantum number

Rules of Ground State Electron Configuration:

The following table shows the number of electrons that can occupy in each subshell.

[wps_table style=”default”]

Sub-Shell	Number of possible electrons in each orbital
s	2
p	6
d	10
f	14

[/wps_table]

There are general rules available to calculate the ground-state electron configuration of an atom.

Aufbau Principle
Hund’s Rule
Pauli Exclusion Principle.

Aufbau Principle:

“Aufbau” is a German word for ‘building up’.The Aufbau Principleis also known as the ‘building-up principle’.

It states that electrons occupy positions in the orbitals in the ascending order or order of increasing energy. According to this principle, The electrons must occupy the lowest energy shells first.

The occupation order of Electrons is as follows:

1s<2s<2p<3s<3p<4s<3d<4p<5s<4d<5p<6s<4f<5d<6p<7s<5f<6d<7p

This equation might seem confusing but it is really simple. The electrons are shown to occupy the smallest energy shells first then move towards the higher value. The visual presentation below will help you understand more.

How to Write Ground State Electron Configuration in Chemistry (2)

To understand this principle better, let us take the example of Bromine (Z=35). Bromine has 35 electrons, which is found in Period 4, in the Group VII of the periodic table.

The bromine has 7 valence electrons; the 4s orbital will naturally be occupied by 2 electrons. The remaining five electrons will go and occupy the 4p orbital.

Hence the full Ground state electronic configuration for bromine in accordance with the Aufbau Principle is: 1s²2s²2p⁶3s²3p⁶4s²3d¹⁰4p⁵.

If you add all the exponents, you will get a total of 35 electrons, which is the confirmation of our notation is correct.

Hund’s Rule:

Hund’s rule is very simple to understand. It states that the electrons have to occupy the empty shells first.

The most stable configuration results when the electrons are spinning parallel to each other. For example, all alpha electrons or all beta electrons.

Let’s take an example of Nitrogen which has 3 electrons occupying the 2p orbital. Hund’s Rule states that the electrons have to occupy the three empty p orbitals first, namely the 2px orbital, 2py orbital, and the 2pz orbital.

The configuration shown below in the image is incorrect because the third electron does not attempt to occupy the empty 2pz orbital. Instead, it goes to occupy the half-filled 2px orbital. Therefore, this is a violation of Hund’s Rule.

How to Write Ground State Electron Configuration in Chemistry (3)

Pauli-Exclusion Principle:

Pauli assumed that every electron can be characterized with a unique set of four quantum numbers. In simple words, 2 electrons in each orbital will have different characteristics than the 2 electrons in the other orbital.

Therefore, if two or more electrons occupy the same orbital, i.e. the 2s orbital, their spins must be opposite to each other.

Even though the electrons have all the properties same, the principal quantum number (n=2), same angular momentum quantum number (l=0), and same magnetic quantum number (m_l=0), but the electrons will have different spin magnetic quantum numbers (m_s=+1/2 and m_s=-1/2).

How to write the Ground State Electron configuration?

To write The Ground State Electron Configurations, follow the diagonal rule. can be written using the principal quantum number n, and (s, p, d, f) with total electrons written as a superscript.

Ground state Electron Configuration of Sodium (Na):

How to Write Ground State Electron Configuration in Chemistry (4)

By following the diagonal arrow method you can easily write down the Ground State Electron Configuration of Sodium (Na) 1s² 2s² 2p⁶ 3s¹.

When writing down the configuration remember the order of s, p, d, f. The numbers with s come first following p and d and f.

Conclusion:

The Ground State Electron Configuration is the state where the electrons have the lowest energy. It is the most stable state of electrons. The ground-state electron configuration is fundamental to understanding the molecular bonding, structure of an atom, and the properties.

The configuration is easy to understand and easy to write, with the basic understanding of the electron configuration you can easily understand the periodic table.