2
He
Helium

Helium

Element 2 • Noble Gas
Atomic Mass 4.003000
Electron Config 1s²
Group/Period 18/1

Table of Contents

Overview Physical Properties Special Properties Applications Common Uses Natural Occurrence Discovery Safety Information Frequently Asked Questions

Overview

ANALYZED

The Space Age Element

Helium, named after Helios the Greek sun god, holds the unique distinction of being the only element discovered in space before Earth. First detected in the sun's spectrum during the 1868 solar eclipse, Helium is the second most abundant element in the universe yet one of the rarest on Earth.

Extraordinary Physical Properties

Helium exhibits remarkable properties that defy common experience. It's the only element that cannot be frozen into a solid at normal pressure - even at absolute zero (-273.15°C), Helium remains liquid unless pressure exceeds 25 atmospheres. At 2.17K, Helium-4 becomes a superfluid with zero viscosity, capable of flowing upward and through molecular-sized pores.

Noble Gas Characteristics

As the first noble gas in the periodic table, Helium is completely chemically inert under all known conditions. Its electron configuration (1s²) represents a completed shell, making it the most stable element. No Helium compounds exist naturally, though exotic Helium hydride ions (HeH⁺) have been created in laboratory conditions.

Isotopic Properties

Helium-4 (⁴He): 99.999863% abundance - produced by alpha decay of radioactive elements

Helium-3 (³He): 0.000137% abundance - extremely rare, potential fusion fuel worth $15,000 per gram

Physical Properties

MEASURED
Atomic Mass
4.003000 u
Density
0.0002 g/cm³
Melting Point
0.95 °C
Boiling Point
4.22 °C
Electron Configuration
1s²
Ionization Energy
24.59 kJ/mol

Special Properties

CLASSIFIED
INERT Chemically stable and unreactive
Earth Abundance: 5.20e-7
Universe Abundance: 2.30e-1

Applications

CATALOGUED

High-Tech Applications & Uses

🎈 Consumer & Entertainment

  • Party Balloons: Provides lift due to density 7 times less than air
  • Voice Alteration: Inhaling Helium changes vocal cord resonance, creating high-pitched voice (Note: Can be
    dangerous - can cause asphyxiation)
  • Airships & Blimps: Goodyear blimps use 200,000+ cubic feet of Helium for safe, non-flammable lift

🧪 Scientific & Medical Applications

  • MRI Magnets: Cools superconducting magnets to 4.
2K (-269°C) - each MRI machine requires 1,500-1,700 liters
  • Breathing Mixtures: Heliox (80% Helium, 20% oxygen) treats severe asthma and decompression sickness
  • Deep Sea Diving: Trimix (Helium, nitrogen, oxygen) prevents nitrogen narcosis at depths >30 meters
  • Leak Detection: Helium's small atomic size makes it ideal for finding tiny leaks in vacuum systems and pipelines
  • Chromatography: Carrier gas in gas chromatography due to chemical inertness and thermal conductivity

    • 🚀 Aerospace & Technology

    • Rocket Engine Cooling: SpaceX Falcon 9 uses Helium to pressurize fuel tanks and cool engines
    • Satellite Attitude Control: Cold gas thrusters use pressurized Helium for precise spacecraft maneuvering
    • Telescope Cooling: James Webb Space Telescope instruments cooled with liquid Helium to 7K for infrared detection
    • Semiconductor Manufacturing: Creates inert atmosphere during silicon chip production and ion implantation

    🔬 Research Applications

    • Particle Accelerators: Large Hadron Collider uses 130 tons of liquid Helium to cool superconducting magnets
    • Nuclear Research: Helium-3 for neutron detection and potential fusion reactors
    • Cryogenics Research: Achieving temperatures near absolute zero for quantum experiments

    Common Uses

    INDEXED

    High-Tech Applications & Uses

    🎈 Consumer & Entertainment

    • Party Balloons: Provides lift due to density 7 times less than air
    • Voice Alteration: Inhaling Helium changes vocal cord resonance, creating high-pitched voice (Note: Can be
      dangerous - can cause asphyxiation)
    • Airships & Blimps: Goodyear blimps use 200,000+ cubic feet of Helium for safe, non-flammable lift

    🧪 Scientific & Medical Applications

    • MRI Magnets: Cools superconducting magnets to 4.
    2K (-269°C) - each MRI machine requires 1,500-1,700 liters
  • Breathing Mixtures: Heliox (80% Helium, 20% oxygen) treats severe asthma and decompression sickness
  • Deep Sea Diving: Trimix (Helium, nitrogen, oxygen) prevents nitrogen narcosis at depths >30 meters
  • Leak Detection: Helium's small atomic size makes it ideal for finding tiny leaks in vacuum systems and pipelines
  • Chromatography: Carrier gas in gas chromatography due to chemical inertness and thermal conductivity

    • 🚀 Aerospace & Technology

    🔬 Research Applications

    Natural Occurrence

    SURVEYED

    Sources & Natural Occurrence

    🌍 Terrestrial Sources

    Despite being abundant in the universe, Helium is extremely rare on Earth (5.2 ppm in atmosphere) because its light weight allows it to escape Earth's gravity. Most terrestrial Helium forms through radioactive decay:

    Underground Natural Gas Deposits

    • Alpha Decay Process: Uranium and thorium decay releases alpha particles (Helium nuclei)
    • Accumulation: Over millions of years, Helium accumulates in natural gas reservoirs
    • Concentration: Economic extraction requires >0.3% Helium in natural gas
    • Major Fields: Texas Panhandle, Kansas, Algeria, Qatar, and Russia

    Atmospheric Helium

    • Primordial Origin: Residual from Earth's formation
    • Cosmic Ray Production: High-energy particles create Helium-3 in upper atmosphere
    • Solar Wind: Helium-3 deposited on lunar surface by solar wind

    🏭 Commercial Production

    Fractional Distillation of Natural Gas

    • Process: Cool natural gas to -180°C, separate by boiling points
    • Purification: Multiple distillation stages achieve 99.99% purity
    • Global Production: ~180 million cubic meters annually
    • Major Producers: United States (75%), Qatar (10%), Algeria (8%)

    Strategic Reserve

    • US Federal Helium Reserve: Amarillo, Texas - world's largest Helium storage
    • Capacity: 24.2 billion cubic feet in underground salt domes
    • Purpose: Strategic supply for defense and scientific applications

    🌌 Cosmic Abundance

    In the universe, Helium forms through Big Bang nucleosynthesis (25% of normal matter) and ongoing stellar fusion. Stars fuse hydrogen into Helium via the proton-proton chain, with our sun converting 600 million tons of hydrogen to Helium every second. Helium-3, abundant on the Moon from solar wind deposition, represents a potential future fusion fuel source.

    Discovery

    ARCHIVED
    1868
    Pierre Janssen & Norman Lockyer

    Safety Information

    CRITICAL

    Safety Information & Handling

    ⚠️ Primary Hazards

    warning">

    SIMPLE ASPHYXIANT - OXYGEN DISPLACEMENT HAZARD

    • Asphyxiation Risk: Concentrations >20% can displace oxygen
    • No Warning Properties: Colorless, odorless - undetectable without instruments
    • Rapid Dispersion: Being lighter than air, Helium rises and can accumulate in high areas

    🛡️ OSHA Guidelines

    • No Established PEL: Helium is physiologically inert
    • Confined Space Rules: Follow 29 CFR 1910.
    146 for confined spaces
  • Oxygen Monitoring: Maintain >19.5% oxygen in work areas
  • Ventilation Requirements: Adequate ventilation to prevent accumulation

    • 🧤 Personal Protective Equipment

    📦 Storage & Handling

    🚨 Emergency Procedures

    Gas Leak:

    • Evacuate to fresh air immediately
    • Ventilate area from top down (Helium rises)
    • Monitor oxygen levels before re-entry
    • Check for leaks using soap solution or ultrasonic detector

    Inhalation Incident:

    • Move victim to fresh air immediately
    • Monitor breathing and consciousness
    • Administer oxygen if available and trained
    • Call emergency services for unconscious victims

    Cryogenic Exposure:

    • Remove from cold source immediately
    • Warm affected areas gradually with lukewarm water
    • Do not rub or massage frozen tissue
    • Seek immediate medical attention for severe frostbite

    ⚠️ Special Precautions

    Knowledge Database

    Essential information about Helium (He)

    Helium is unique due to its atomic number of 2 and belongs to the Noble Gas category. With an atomic mass of 4.003000, it exhibits distinctive properties that make it valuable for various applications.

    Its electron configuration (1s²) determines its chemical behavior and bonding patterns.

    Helium has several important physical properties:

    Density: 0.0002 g/cm³

    Melting Point: 0.95 K (-272°C)

    Boiling Point: 4.22 K (-269°C)

    State at Room Temperature: Gas

    Atomic Radius: 31 pm

    Helium has various important applications in modern technology and industry:

    High-Tech Applications & Uses

    🎈 Consumer & Entertainment

    • Party Balloons: Provides lift due to density 7 times less than air
    • Voice Alteration: Inhaling Helium changes vocal cord resonance, creating high-pitched voice (Note: Can be
      dangerous - can cause asphyxiation)
    • Airships & Blimps: Goodyear blimps use 200,000+ cubic feet of Helium for safe, non-flammable lift

    🧪 Scientific & Medical Applications

    • MRI Magnets: Cools superconducting magnets to 4.
    2K (-269°C) - each MRI machine requires 1,500-1,700 liters
  • Breathing Mixtures: Heliox (80% Helium, 20% oxygen) treats severe asthma and decompression sickness
  • Deep Sea Diving: Trimix (Helium, nitrogen, oxygen) prevents nitrogen narcosis at depths >30 meters
  • Leak Detection: Helium's small atomic size makes it ideal for finding tiny leaks in vacuum systems and pipelines
  • Chromatography: Carrier gas in gas chromatography due to chemical inertness and thermal conductivity

    • 🚀 Aerospace & Technology

    • Rocket Engine Cooling: SpaceX Falcon 9 uses Helium to pressurize fuel tanks and cool engines
    • Satellite Attitude Control: Cold gas thrusters use pressurized Helium for precise spacecraft maneuvering
    • Telescope Cooling: James Webb Space Telescope instruments cooled with liquid Helium to 7K for infrared detection
    • Semiconductor Manufacturing: Creates inert atmosphere during silicon chip production and ion implantation

    🔬 Research Applications

    • Particle Accelerators: Large Hadron Collider uses 130 tons of liquid Helium to cool superconducting magnets
    • Nuclear Research: Helium-3 for neutron detection and potential fusion reactors
    • Cryogenics Research: Achieving temperatures near absolute zero for quantum experiments
    1868
    Pierre Janssen & Norman Lockyer

    Discovered by: Pierre Janssen & Norman Lockyer

    Year of Discovery: 1868

    Sources & Natural Occurrence

    🌍 Terrestrial Sources

    Despite being abundant in the universe, Helium is extremely rare on Earth (5.2 ppm in atmosphere) because its light weight allows it to escape Earth's gravity. Most terrestrial Helium forms through radioactive decay:

    Underground Natural Gas Deposits

    • Alpha Decay Process: Uranium and thorium decay releases alpha particles (Helium nuclei)
    • Accumulation: Over millions of years, Helium accumulates in natural gas reservoirs
    • Concentration: Economic extraction requires >0.3% Helium in natural gas
    • Major Fields: Texas Panhandle, Kansas, Algeria, Qatar, and Russia

    Atmospheric Helium

    • Primordial Origin: Residual from Earth's formation
    • Cosmic Ray Production: High-energy particles create Helium-3 in upper atmosphere
    • Solar Wind: Helium-3 deposited on lunar surface by solar wind

    🏭 Commercial Production

    Fractional Distillation of Natural Gas

    • Process: Cool natural gas to -180°C, separate by boiling points
    • Purification: Multiple distillation stages achieve 99.99% purity
    • Global Production: ~180 million cubic meters annually
    • Major Producers: United States (75%), Qatar (10%), Algeria (8%)

    Strategic Reserve

    • US Federal Helium Reserve: Amarillo, Texas - world's largest Helium storage
    • Capacity: 24.2 billion cubic feet in underground salt domes
    • Purpose: Strategic supply for defense and scientific applications

    🌌 Cosmic Abundance

    In the universe, Helium forms through Big Bang nucleosynthesis (25% of normal matter) and ongoing stellar fusion. Stars fuse hydrogen into Helium via the proton-proton chain, with our sun converting 600 million tons of hydrogen to Helium every second. Helium-3, abundant on the Moon from solar wind deposition, represents a potential future fusion fuel source.

    Earth's Abundance: 5.20e-7

    Universe Abundance: 2.30e-1

    ✅ Safe: Helium is an inert noble gas and is generally safe to handle with standard laboratory precautions.

    Safety Information & Handling

    ⚠️ Primary Hazards

    warning">

    SIMPLE ASPHYXIANT - OXYGEN DISPLACEMENT HAZARD

    • Asphyxiation Risk: Concentrations >20% can displace oxygen
    • No Warning Properties: Colorless, odorless - undetectable without instruments
    • Rapid Dispersion: Being lighter than air, Helium rises and can accumulate in high areas

    🛡️ OSHA Guidelines

    • No Established PEL: Helium is physiologically inert
    • Confined Space Rules: Follow 29 CFR 1910.
    146 for confined spaces
  • Oxygen Monitoring: Maintain >19.5% oxygen in work areas
  • Ventilation Requirements: Adequate ventilation to prevent accumulation

    • 🧤 Personal Protective Equipment

    • Respiratory Protection: Self-contained breathing apparatus in low-oxygen environments
    • Eye Protection: Safety glasses when handling pressurized systems
    • Cryogenic Protection: Insulated gloves and face shield for liquid Helium
    • Clothing: Long sleeves and pants to prevent skin contact with cold gas/liquid

    📦 Storage & Handling

    • Gas Cylinders: Store upright, secured, in well-ventilated areas
    • Pressure: Typically stored at 200-300 bar (3000-4500 psi)
    • Temperature: Keep cylinders below 50°C (122°F)
    • Liquid Helium: Store in specialized dewars with pressure relief systems
    • Handling: Use proper lifting equipment - never roll or drag cylinders

    🚨 Emergency Procedures

    Gas Leak:

    • Evacuate to fresh air immediately
    • Ventilate area from top down (Helium rises)
    • Monitor oxygen levels before re-entry
    • Check for leaks using soap solution or ultrasonic detector

    Inhalation Incident:

    • Move victim to fresh air immediately
    • Monitor breathing and consciousness
    • Administer oxygen if available and trained
    • Call emergency services for unconscious victims

    Cryogenic Exposure:

    • Remove from cold source immediately
    • Warm affected areas gradually with lukewarm water
    • Do not rub or massage frozen tissue
    • Seek immediate medical attention for severe frostbite

    ⚠️ Special Precautions

    • Never Inhale Pure Helium: Can cause rapid unconsciousness
    • Balloon Warning: Multiple balloon inhalations can be fatal
    • Confined Spaces: Use continuous atmospheric monitoring
    • Pressure Systems: Follow ASME pressure vessel codes

    Related Elements

    10
    Ne
    Neon
    18
    Ar
    Argon
    36
    Kr
    Krypton
    54
    Xe
    Xenon
    86
    Rn
    Radon
    118
    Og
    Oganesson
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