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== What is Atomic Number? == | == What is Atomic Number? == | ||
The [[Atomic number| atomic number]] of a [[Chemical Element]] is the number of [[Proton|protons]] found in the nucleus of an atom of that element. It is denoted by the symbol '''Z'''. | The [[Atomic number| atomic number]] of a [[Chemical Element| Elements]] is the number of [[Proton|protons]] found in the nucleus of an atom of that element. It is denoted by the symbol '''Z'''. | ||
Each element has a unique [[Atomic Number]], which determines its identity and position in the [[Periodic Table of Elements]]. | Each element has a unique [[Atomic Number]], which determines its identity and position in the [[Periodic Table of Elements]]. | ||
Revision as of 08:04, 22 May 2025
What is Atomic Number?
The atomic number of a Elements is the number of protons found in the nucleus of an atom of that element. It is denoted by the symbol Z.
Each element has a unique Atomic Number, which determines its identity and position in the Periodic Table of Elements.
Definition
Atomic Number (Z) = Number of Protons in the Nucleus
- For example, all Hydrogen atoms have 1 proton, so the Atomic Number of hydrogen is 1.
- Carbon has 6 protons, so its atomic number is 6.
- Oxygen has 8 protons, so its atomic number is 8.
Role of Atomic Number
The Atomic Number plays a central role in modern Chemistry:
- It defines the element – no two elements share the same Atomic Number.
- It determines the arrangement of elements in the modern Periodic Table.
- It influences an atom’s chemical properties, electron configuration, and place in the periodic trends.
- In a neutral atom, the number of electrons equals the number of protons (i.e., the Atomic Number).
Discovery of Atomic Number
Although early scientists like Dmitri Mendeleev arranged elements by Atomic Mass, inconsistencies in the Periodic Table were only resolved when British physicist Henry Moseley introduced the concept of Atomic Number in 1913.
Using X-ray Spectroscopy, Moseley discovered that each element emits radiation at a frequency directly related to the number of Protons in its nucleus.
This led to the modern Periodic Law:
The properties of elements are a periodic function of their atomic numbers.
Examples of Atomic Numbers
| Element | Symbol | Atomic Number |
|---|---|---|
| Hydrogen | H | 1 |
| Helium | He | 2 |
| Carbon | C | 6 |
| Oxygen | O | 8 |
| Iron | Fe | 26 |
| Gold | Au | 79 |
| Uranium | U | 92 |
| Oganesson | Og | 118 |
Difference Between Atomic Number and Mass Number
- Atomic Number (Z): Number of Protons
- Mass Number (A): Total number of Protons + Neutrons
Example: Carbon-12 → Atomic number = 6, Mass number = 12 So, neutrons = 12 − 6 = 6
Atomic Number and Isotopes
Isotopes are atoms of the same element (same Atomic Number) but with different numbers of Neutrons.
- Example: Hydrogen has three isotopes:
- Protium (¹H), Deuterium (²H), and Tritium (³H) – all have Atomic Number 1
Importance in Chemistry and Physics
The Atomic Number is essential for:
- Identifying elements
- Understanding Chemical Behavior
- Predicting Reactivity and Bonding
- Nuclear Physics and Radioactivity
See Also
- Periodic Table of Elements – A Complete Guide
- Chemical Elements – A Complete Guide
- Dmitri Mendeleev – The Father of the Periodic Table
- Henry Moseley – The Scientist Who Defined Atomic Number
References and Further Reading
- International Union of Pure and Applied Chemistry (IUPAC)
- Khan Academy – Atomic Structure
- Standard Chemistry Textbooks (NCERT, Oxford, Pearson)
Disclaimer
This article is written for Academic and Educational Purposes only. It is intended to provide a clear explanation of the Atomic Number for students and educators using MediaWiki platforms. For advanced study, consult official scientific publications and curriculum-based textbooks.