---
title: Helium
slug: helium
url: /detay/helium
type: article
language: English
entity:
  primary: Helium
  type: article
  disambiguation: Helium: Noble gas, lightest element, key uses in science, medicine & technology.
  categories:
    - name: Chemistry
      slug: kimya
      url: /kategori/kimya
  tags:
    - Inert gas
    - Helium
author: Ömer Said Aydın
created_at: 2025-03-12T12:15:42.542302+03:00
updated_at: 2025-04-17T11:15:32.474387+03:00
---

# Helium

<!-- CONTEXT: KURE Information Cards for "Helium" -->

## KURE Information Cards

### KURE Information Card: Helium

![Helium-Symbol.jpg](https://cdn.t3pedia.org/media/uploads/2025/03/12/hjOjmtJpEFznrtD9bkzolW7xepTiAqDP.jpg)

| Field | Value |
|-------|-------|
| Melting Point(Text) | -272 05 °C |
| Density(Text) | 0.1785 g/l |
| Boiling Point(Text) | -268 93 °C |
| Group(Text) | 18 |
| Atomic Number(Text) | 2 |
| Period(s) | 1 |
| Phase | Gas |
| Electron Configuration | 1s² |
| Block | s |

<!-- CONTEXT: Article Content for "Helium" -->

## Article Content

Helium, with the chemical symbol He and [an](/en/detay/an-2/llms.txt) atomic number of 2, is a noble gas in Group 18 of the periodic table. The lightest of the noble gases, helium is the second most abundant [element](/en/detay/element-7/llms.txt) in the universe and plays a significant role in various fields, such as energy production, medicine, space technology, and industrial applications. Although helium was first discovered in the Sun, it was later found on Earth, leading to significant scientific and industrial advancements.

### **Discovery and Historical Development of Helium**

Helium was first observed in 1868 by French astronomer Pierre Janssen during a solar eclipse in India. Using a spectroscope to study the Sun's chromosphere, Janssen noticed a new yellow spectral line in a solar prominence (a gas eruption in the Sun's atmosphere). He predicted that this line signified the presence of an element that [had](/en/detay/had/llms.txt) never been discovered on Earth. This spectral line was independently observed by English astronomer Joseph Norman Lockyer, and it was understood that it did not originate from any known element on Earth. Lockyer and English chemist Edward Frankland named this new element helium, derived from the Greek word *helios*, meaning "sun."

Helium, discovered in the Sun, was first isolated on Earth in 1895 by Scottish chemist [Sir](/en/detay/sir/llms.txt) William Ramsay from a mineral called cleveite, which contained uranium. This discovery earned Ramsay the Nobel Prize in Chemistry in 1904. Furthermore, his work helped establish the noble gases group in the periodic table.

### **Chemical Properties of Helium**

Helium is a colorless, odorless, and tasteless gas, lacking properties like color, smell, or taste. It exists as a gas [at](/en/detay/at-3/llms.txt) room temperature and [has](/en/detay/has-3/llms.txt) low density and a very low boiling point (−268.93°C). Helium belongs to the group of rare gases (noble gases) and is chemically inert (non-reactive). This means it is generally found in its free state in nature.

The nucleus of a helium atom contains only two protons, which is why its atomic number is 2. It also has two electrons, with an electron configuration of 1s². Due to these properties, helium does not form chemical bonds and typically does not react with other elements. A key characteristic of noble gases is that their outer electron shells are filled, which results in extremely low chemical reactivity.

### **Uses of Helium**

In addition to its chemical stability, helium is widely used in many industrial and scientific applications due to its physical properties. Some of its primary uses include:

1. **Space Technology and Airships** Helium is a much safer gas than hydrogen, as hydrogen is flammable and explosive, whereas helium is completely non-flammable. Therefore, helium is preferred over hydrogen for airships and balloons. Additionally, in space research, helium is used in rocket fuel systems for cooling purposes. 
2. **Medical Applications** Helium is commonly used in magnetic resonance imaging (MRI) machines. MRI machines use powerful magnetic fields to create images of organs and tissues inside the body, and helium is required to cool these magnetic fields. Its low boiling point makes it highly efficient for this cooling process.
3. **Laser Technology** Helium is used in certain lasers, such as the Helium-Neon (HeNe) laser. These lasers are used in scientific research and industrial applications that require high precision.
4. **Industrial Applications** Helium is also used in industrial applications like air balloons, ship and aircraft cooling systems, and high-tech applications such as dark matter research and superconductors.
5. **Cooling and Cryogenic Applications** Helium is widely used to cool superconducting materials. This process is critical in scientific research and technological devices.

Helium's journey began with its discovery in the Sun, followed by its isolation on Earth and eventual industrial use. With its chemical inertness, low density, and non-flammable properties, helium has become an indispensable element in many fields, particularly in space technology, medical applications, and industrial cooling. Its contribution to scientific and technological advancements continues to be significant, and helium will play a crucial role in future developments.

<!-- CONTEXT: Academic Sources and References for "Helium" -->

## Academic Sources and References

1. "Helium." Purdue University, Department of Chemistry. Accessed March 11, 2025. https://www.chem.purdue.edu/history/helium.html."Helium." University of Toledo, College of Natural Sciences and Mathematics. Accessed March 11, 2025. https://www.utoledo.edu/nsm/ic/elements/helium.html."Helium." Los Alamos National Laboratory, Periodic Table. Accessed March 11, 2025. https://periodic.lanl.gov/2.shtml."Helium." Jefferson Lab, Its Elemental. Accessed March 11, 2025. https://education.jlab.org/itselemental/ele002.html."Helium." PubChem, National Library of Medicine. Accessed March 11, 2025. https://pubchem.ncbi.nlm.nih.gov/element/Helium#section=Historical-Atomic-Weights."Helium." American Chemical Society. Accessed March 11, 2025. https://www.acs.org/green-chemistry-sustainability/research-innovation/endangered-elements/helium.html."Helium." American Elements. Accessed March 11, 2025. https://www.americanelements.com/he.html.Rose, Garry. "Helium." University of Kentucky. Accessed March 11, 2025. https://www.uky.edu/\~garose/helium."Helium." Chemistry Learner. Accessed March 11, 2025. https://www.chemistrylearner.com/helium.html.PubChem. "Helium." National Center for Biotechnology Information. Accessed March 11, 2025. https://pubchem.ncbi.nlm.nih.gov/compound/Helium.