GITNUX MARKETDATA REPORT 2024

Aluminum Electron Count Statistics

The average number of electrons in aluminum is approximately 13 electrons.

With sources from: webelements.com, chemicool.com, rsc.org, lenntech.com and many more

Statistic 1

Aluminum's second ionization energy is 1816.9 kJ/mol.

Statistic 2

The relative atomic mass of aluminum is approximately 26.9815385 u.

Statistic 3

Aluminum has a melting point of 660.32°C (1220.58°F), which can influence its electron mobility.

Statistic 4

Aluminum typically loses three electrons to form a +3 ion (Al³⁺).

Statistic 5

Aluminum has a face-centered cubic crystal structure influencing electron displacement in a solid state.

Statistic 6

In the 3rd energy level, aluminum has three electrons.

Statistic 7

The ground state electron configuration of an isolated Al³⁺ ion is [Ne].

Statistic 8

Aluminum's density is approximately 2.70 g/cm³, influencing its electron density.

Statistic 9

Aluminum's electronegativity is around 1.61 on the Pauling scale.

Statistic 10

The covalent radius of aluminum is approximately 121 pm.

Statistic 11

Aluminum's third ionization energy is 2744.8 kJ/mol.

Statistic 12

The coordination number of aluminum in many compounds is typically 6, affecting electron arrangements.

Statistic 13

Aluminum has 13 electrons in its neutral state.

Statistic 14

The electron configuration of aluminum is [Ne] 3s² 3p¹.

Statistic 15

Aluminum's first ionization energy is 577.5 kJ/mol.

Statistic 16

Aluminum has an atomic number of 13.

Statistic 17

The atomic radius of aluminum is about 143 pm, impacting its electron cloud size.

Statistic 18

The metallic radius of aluminum is about 143.2 pm.

Statistic 19

Aluminum oxide forms a protective layer on the aluminum metal surface preventing electron loss from corrosion.

Statistic 20

Aluminum exhibits conductivity of approximately 37.7 × 10⁶ S/m due to free electron movement.

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In this post, we will explore the intriguing world of aluminum electron count, delving into various statistics and properties that govern the behavior of electrons in this essential element. From ionization energies to electron configurations, and from crystal structures to conductivity, we will uncover how these factors shape the electron dynamics of aluminum. Join us as we unravel the fascinating realm of aluminum’s electron characteristics.

Statistic 1

"Aluminum's second ionization energy is 1816.9 kJ/mol."

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Statistic 2

"The relative atomic mass of aluminum is approximately 26.9815385 u."

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Statistic 3

"Aluminum has a melting point of 660.32°C (1220.58°F), which can influence its electron mobility."

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Statistic 4

"Aluminum typically loses three electrons to form a +3 ion (Al³⁺)."

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Statistic 5

"Aluminum has a face-centered cubic crystal structure influencing electron displacement in a solid state."

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Statistic 6

"In the 3rd energy level, aluminum has three electrons."

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Statistic 7

"The ground state electron configuration of an isolated Al³⁺ ion is [Ne]."

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Statistic 8

"Aluminum's density is approximately 2.70 g/cm³, influencing its electron density."

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Statistic 9

"Aluminum's electronegativity is around 1.61 on the Pauling scale."

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Statistic 10

"The covalent radius of aluminum is approximately 121 pm."

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Statistic 11

"Aluminum's third ionization energy is 2744.8 kJ/mol."

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Statistic 12

"The coordination number of aluminum in many compounds is typically 6, affecting electron arrangements."

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Statistic 13

"Aluminum has 13 electrons in its neutral state."

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Statistic 14

"The electron configuration of aluminum is [Ne] 3s² 3p¹."

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Statistic 15

"Aluminum's first ionization energy is 577.5 kJ/mol."

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Statistic 16

"Aluminum has an atomic number of 13."

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Statistic 17

"The atomic radius of aluminum is about 143 pm, impacting its electron cloud size."

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Statistic 18

"The metallic radius of aluminum is about 143.2 pm."

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Statistic 19

"Aluminum oxide forms a protective layer on the aluminum metal surface preventing electron loss from corrosion."

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Statistic 20

"Aluminum exhibits conductivity of approximately 37.7 × 10⁶ S/m due to free electron movement."

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Interpretation

In conclusion, the unique chemical and physical properties of aluminum, such as its second ionization energy, electron configuration, melting point, crystal structure, and conductivity, play a significant role in its behavior and applications. The statistics presented offer insight into aluminum's electron count and behavior in various forms, from its elemental state to ions and compounds. Understanding these statistics can deepen our knowledge of aluminum's properties and how it interacts with other elements and materials in real-world scenarios.

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