Ba 56

Barium (Ba)

alkaline-earth-metal

Period: 6 Group: 2 Block: s

Solid

Standard Atomic Weight

Electron configuration

[Xe] 6s²

Melting point

726.85 °C (1000 K)

Boiling point

1896.85 °C (2170 K)

Density

3620 kg/m³

Oxidation states

+1, +2

Electronegativity (Pauling)

0.89

Ionization energy (1st)

Discovery year

1808

Atomic radius

215 pm

Details

Name origin Greek: barys (heavy or dense).

Discovery country England

Discoverers Sir Humphrey Davy

Barium is a soft alkaline earth metal, below strontium and above radium in group 2. It is highly reactive, forms Ba²⁺ compounds almost exclusively, and is not found free in nature. Its most important minerals are barite, barium sulfate, and witherite, barium carbonate. The element is technologically significant less as a metal than through dense, insoluble, or optically useful compounds.

Barium is a metallic element, soft, and when pure is silvery white; it belongs to the alkaline earth group, chemically resembling calcium. The metal oxidizes very easily and should be kept under petroleum or other suitable oxygen-free liquids to exclude air. It is decomposed by water or alcohol.

Barium was first isolated by Sir Humphry Davy, an English chemist, in 1808 through the electrolysis of molten baryta (BaO). Barium is never found free in nature since it reacts with oxygen in the air, forming barium oxide (BaO), and with water, forming barium hydroxide (Ba(OH)2) and hydrogen gas (H2). Barium is most commonly found as the mineral barite (BaSO4) and witherite (BaCO3) and is primarily produced through the electrolysis of barium chloride (BaCl2).

From the Greek word barys, heavy. Baryta was distinguished from lime by Scheele in 1774; the element was discovered by Sir Humphrey Davy in 1808.

Read about Barium on Wikipedia

Images

Properties

Physical

Atomic radius (empirical) 215 pm

Covalent radius 215 pm

Van der Waals radius 268 pm

Metallic radius 198 pm

Density

Molar volume 0.039 L/mol

Phase at STP solid

Melting point 726.85 °C

Boiling point 1896.85 °C

Specific heat capacity 0.204 J/(g·K)

Molar heat capacity 28.07 J/(mol·K)

Crystal structure bcc

Chemical

Electronegativity (Pauling) 0.89

Electronegativity (Allen) 0.881

Electron affinity

Ionization energy (1st)

Ionization energy (2nd)

Ionization energy (3rd)

Ionization energy (4th)

Ionization energy (5th)

Oxidation states +1, +2

Valence electrons 2

Electron configuration

Electron configuration (semantic)

Thermodynamic

Heat of fusion 0.07939058 eV

Heat of vaporization 1.461367 eV

Heat of sublimation 1.865575 eV

Heat of atomization 1.865575 eV

Atomization enthalpy

Nuclear

Stable isotopes 6

Discovery year 1808

Abundance

Abundance (Earth's crust) 425 mg/kg

Abundance (ocean)

Reactivity

N/A

Crystal Structure

Lattice constant a 502 pm

Electronic Structure

Electrons per shell 2, 8, 18, 18, 8, 2

Identifiers

CAS number 7440-39-3

Term symbol

InChI InChI=1S/Ba

InChI Key DSAJWYNOEDNPEQ-UHFFFAOYSA-N

Electron Configuration Measured

Ion charge

Protons 56

Electrons 56

Charge Neutral

Configuration Ba: 6s²

[Xe] 6s²

1s² 2s² 2p⁶ 3s² 3p⁶ 3d¹⁰ 4s² 4p⁶ 4d¹⁰ 5s² 5p⁶ 6s²

Orbital diagram

↑↓

2/2

↑↓

2/2

↑↓

6/6

↑↓

2/2

↑↓

6/6

↑↓

2/2

↑↓

10/10

↑↓

6/6

↑↓

2/2

↑↓

10/10

↑↓

6/6

↑↓

2/2

Total electrons: 56 Unpaired: 0

Atomic model

Protons 56

Neutrons 82

Electrons 56

Mass number 138

Stability Stable

Isotopes change neutron count, mass, and stability — not the electron configuration of a neutral atom.

Schematic atomic model, not to scale.

Atomic Fingerprint

Emission / Absorption Spectrum

Emission Visible: 380–750 nm

Isotope Distribution

Mass number	Atomic mass (u)	Natural abundance	Half-life
134 Stable	133.90450818 ± 0.0000003	2.4170%	Stable
135 Stable	134.90568838 ± 0.00000029	6.5920%	Stable
136 Stable	135.90457573 ± 0.00000029	7.8540%	Stable
137 Stable	136.90582714 ± 0.0000003	11.2320%	Stable
138 Stable	137.905247 ± 0.00000031	71.6980%	Stable

Measured

Phase / State

Solid 25 °C (298.15 K)

Reason: 701.9 °C below melting point (726.85 °C)

Melting point 726.85 °C

Boiling point 1896.85 °C

Below melting by 701.9 °C

0 K Current temperature: 25 °C 6000 K

Phase timeline

Schematic, not to scale

Solid

Liquid

Gas

Melting

Boiling

25°C

Solid

Liquid

Gas

Current

Phase transition points

Melting point Literature

726.85 °C

Boiling point Literature

1896.85 °C

Current phase Calculated
Solid

Transition energies

Heat of fusion Literature

0.07939058 eV

Energy required to melt 1 mol at melting point

Heat of vaporization Literature

1.461367 eV

Energy required to vaporize 1 mol at boiling point

Heat of sublimation Literature

1.865575 eV

Energy required to sublime 1 mol at sublimation point

Density

Reference density Literature

3620 kg/m³

At standard conditions

Current density Calculated

3620 kg/m³

At standard conditions

Atomic Spectra

Showing 10 of 56 Atomic Spectra. Sorted by ion charge (ascending).

Lines Holdings ?

Ion	Charge	Total lines	Transition probabilities	Level designations
Ba I	0	312	109	312
Ba II	+1	112	94	112
Ba III	+2	535	5	529
Ba IV	+3	42	3	42
Ba V	+4	135	0	126
Ba VI	+5	138	0	127
Ba VII	+6	70	0	70
Ba VIII	+7	141	141	141
Ba IX	+8	110	110	110
Ba X	+9	31	31	31

NIST Lines Holdings →

Levels Holdings ?

Ion	Charge	Levels
Ba I	0	356
Ba II	+1	162
Ba III	+2	162
Ba IV	+3	34
Ba V	+4	52
Ba VI	+5	50
Ba VII	+6	32
Ba VIII	+7	79
Ba IX	+8	55
Ba X	+9	30

NIST Levels Holdings →

56 Ba 137.327

Barium — Atomic Orbital Visualizer

[Xe]6s2

Energy levels 2 8 18 18 8 2

Oxidation states +1, +2

HOMO 6s n=6 · l=0 · m=0

Barium — Atomic Orbital Visualizer Preview

Three.js loads only on request

56 Ba 137.327

Barium — Crystal Structure Visualizer

Body-Centered Cubic · Pearson cI2

Experimental

Pearson cI2

Coord. № 8

Packing 68.000%

Barium — Crystal Structure Visualizer Preview

Three.js loads only on request

Ionic Radii

Charge	Coordination	Spin	Radius
+2	6	N/A	135 pm
+2	7	N/A	138 pm
+2	8	N/A	142 pm
+2	9	N/A	147 pm
+2	10	N/A	152 pm
+2	11	N/A	157 pm
+2	12	N/A	161 pm

Compounds

137.330 u

Ba+2

137.330 u

132.906 u

139.911 u

138.909 u

130.907 u

137.905 u

125.911 u

136.906 u

134.906 u

140.914 u

141.916 u

127.908 u

129.906 u

131.905 u

133.905 u

135.905 u

Isotopes (5)

Mass number	Atomic mass (u)	Natural abundance	Half-life	Decay mode
134 Stable	133.90450818 ± 0.0000003	2.4170% ± 0.0180%	Stable	stable
135 Stable	134.90568838 ± 0.00000029	6.5920% ± 0.0120%	Stable	stable
136 Stable	135.90457573 ± 0.00000029	7.8540% ± 0.0240%	Stable	stable
137 Stable	136.90582714 ± 0.0000003	11.2320% ± 0.0240%	Stable	stable
138 Stable	137.905247 ± 0.00000031	71.6980% ± 0.0420%	Stable	stable

134 Stable

Atomic mass (u) 133.90450818 ± 0.0000003

Natural abundance 2.4170% ± 0.0180%

Half-life Stable

Decay mode

stable

135 Stable

Atomic mass (u) 134.90568838 ± 0.00000029

Natural abundance 6.5920% ± 0.0120%

Half-life Stable

Decay mode

stable

136 Stable

Atomic mass (u) 135.90457573 ± 0.00000029

Natural abundance 7.8540% ± 0.0240%

Half-life Stable

Decay mode

stable

137 Stable

Atomic mass (u) 136.90582714 ± 0.0000003

Natural abundance 11.2320% ± 0.0240%

Half-life Stable

Decay mode

stable

138 Stable

Atomic mass (u) 137.905247 ± 0.00000031

Natural abundance 71.6980% ± 0.0420%

Half-life Stable

Decay mode

stable

Spectral Lines

Showing 50 of 92 Spectral Lines. Only spectral lines with measured intensity are shown by default.

Wavelength (nm)	Intensity	Ion stage	Type	Transition	Accuracy	Source
392.686 nm	25	Ba III	emission	5p5.(2P<3/2>).6s 2[3/2] → 5p5.(2P*<3/2>).6p 2[1/2]	Measured	NIST
399.306 nm	25	Ba III	emission	5p5.(2P<3/2>).6s 2[3/2] → 5p5.(2P*<3/2>).6p 2[5/2]	Measured	NIST
381.3128 nm	16	Ba III	emission	5p5.(2P<1/2>).6s 2[1/2] → 5p5.(2P*<1/2>).4f 2[5/2]	Measured	NIST
469.7428 nm	15	Ba III	emission	5p5.(2P<1/2>).5d 2[3/2] → 5p5.(2P*<1/2>).6p 2[1/2]	Measured	NIST
448.1646 nm	14	Ba III	emission	5p5.(2P<1/2>).5d 2[3/2] → 5p5.(2P*<3/2>).6p 2[5/2]	Measured	NIST
610.1987 nm	13	Ba III	emission	5p5.(2P<1/2>).5d 2[3/2] → 5p5.(2P*<1/2>).4f 2[5/2]	Measured	NIST
389.6957 nm	12	Ba III	emission	5p5.(2P<3/2>).5d 2[5/2] → 5p5.(2P*<3/2>).4f 2[3/2]	Measured	NIST
392.723 nm	10	Ba III	emission	5p5.(2P<3/2>).5d 2[5/2] → 5p5.(2P*<3/2>).4f 2[9/2]	Measured	NIST
432.793 nm	10	Ba III	emission	5p5.(2P<3/2>).6s 2[3/2] → 5p5.(2P*<3/2>).6p 2[1/2]	Measured	NIST
482.0642 nm	10	Ba III	emission	5p5.(2P<3/2>).5f 2[3/2] → 5p5.(2P<3/2>).5g 2[5/2]*	Measured	NIST
485.0833 nm	10	Ba III	emission	5p5.(2P<3/2>).5f 2[3/2] → 5p5.(2P<3/2>).5g 2[5/2]*	Measured	NIST
496.4038 nm	10	Ba III	emission	5p5.(2P<3/2>).5f 2[5/2] → 5p5.(2P<3/2>).5g 2[7/2]*	Measured	NIST
504.9533 nm	10	Ba III	emission	5p5.(2P<3/2>).5f 2[5/2] → 5p5.(2P<3/2>).5g 2[7/2]*	Measured	NIST
509.7537 nm	10	Ba III	emission	5p5.(2P<3/2>).5f 2[7/2] → 5p5.(2P<3/2>).5g 2[9/2]*	Measured	NIST
513.4529 nm	10	Ba III	emission	5p5.(2P<3/2>).5f 2[7/2] → 5p5.(2P<3/2>).5g 2[9/2]*	Measured	NIST
599.7996 nm	10	Ba III	emission	5p5.(2P<3/2>).7p 2[5/2] → 5p5.(2P<3/2>).7d 2[7/2]*	Measured	NIST
637.7094 nm	10	Ba III	emission	5p5.(2P<3/2>).7p 2[3/2] → 5p5.(2P<3/2>).7d 2[5/2]*	Measured	NIST
638.3756 nm	10	Ba III	emission	5p5.(2P<3/2>).7p 2[5/2] → 5p5.(2P<3/2>).7d 2[7/2]*	Measured	NIST
438.5824 nm	9	Ba III	emission	5p5.(2P<1/2>).5d 2[5/2] → 5p5.(2P*<3/2>).6p 2[5/2]	Measured	NIST
464.6207 nm	9	Ba III	emission	5p5.(2P<3/2>).5d 2[5/2] → 5p5.(2P*<3/2>).4f 2[3/2]	Measured	NIST
542.699 nm	9	Ba III	emission	5p5.(2P<1/2>).5d 2[5/2] → 5p5.(2P*<3/2>).6p 2[5/2]	Measured	NIST
491.7171 nm	8	Ba III	emission	5p5.(2P<1/2>).5f 2[7/2] → 5p5.(2P<1/2>).5g 2[9/2]*	Measured	NIST
494.5436 nm	8	Ba III	emission	5p5.(2P<1/2>).5f 2[5/2] → 5p5.(2P<1/2>).5g 2[7/2]*	Measured	NIST
495.2914 nm	8	Ba III	emission	5p5.(2P<1/2>).5f 2[5/2] → 5p5.(2P<1/2>).5g 2[7/2]*	Measured	NIST
496.3235 nm	8	Ba III	emission	5p5.(2P<1/2>).5f 2[7/2] → 5p5.(2P<1/2>).5g 2[9/2]*	Measured	NIST
503.3498 nm	8	Ba III	emission	5p5.(2P<3/2>).7p 2[5/2] → 5p5.(2P<3/2>).5g 2[5/2]*	Measured	NIST
503.7341 nm	8	Ba III	emission	5p5.(2P<1/2>).5d 2[3/2] → 5p5.(2P*<1/2>).6p 2[1/2]	Measured	NIST
590.0288 nm	8	Ba III	emission	5p5.(2P<3/2>).5f 2[9/2] → 5p5.(2P<3/2>).7d 2[7/2]*	Measured	NIST
601.6412 nm	8	Ba III	emission	5p5.(2P<1/2>).5d 2[3/2] → 5p5.(2P*<1/2>).6p 2[3/2]	Measured	NIST
603.6589 nm	8	Ba III	emission	5p5.(2P<3/2>).5f 2[5/2] → 5p5.(2P<3/2>).7d 2[7/2]*	Measured	NIST
607.7807 nm	8	Ba III	emission	5p5.(2P<3/2>).6s 2[3/2] → 5p5.(2P*<3/2>).4f 2[3/2]	Measured	NIST
627.0084 nm	8	Ba III	emission	5p5.(2P<3/2>).7p 2[3/2] → 5p5.(2P<3/2>).7d 2[5/2]*	Measured	NIST
652.6166 nm	8	Ba III	emission	5p5.(2P<3/2>).7p 2[5/2] → 5p5.(2P<3/2>).8s 2[3/2]*	Measured	NIST
709.5497 nm	8	Ba III	emission	5p5.(2P<3/2>).6s 2[3/2] → 5p5.(2P*<3/2>).4f 2[3/2]	Measured	NIST
519.6426 nm	7	Ba III	emission	5p5.(2P<3/2>).7p 2[5/2] → 5p5.(2P<3/2>).5g 2[7/2]*	Measured	NIST
552.8138 nm	7	Ba III	emission	5p5.(2P<1/2>).5d 2[3/2] → 5p5.(2P*<3/2>).6p 2[1/2]	Measured	NIST
574.0413 nm	7	Ba III	emission	5p5.(2P<3/2>).5f 2[3/2] → 5p5.(2P<3/2>).7d 2[7/2]*	Measured	NIST
579.8254 nm	7	Ba III	emission	5p5.(2P<3/2>).5f 2[5/2] → 5p5.(2P<3/2>).7d 2[5/2]*	Measured	NIST
585.9192 nm	7	Ba III	emission	5p5.(2P<3/2>).7p 2[5/2] → 5p5.(2P<3/2>).7d 2[5/2]*	Measured	NIST
588.1879 nm	7	Ba III	emission	5p5.(2P<3/2>).5f 2[9/2] → 5p5.(2P<3/2>).7d 2[7/2]*	Measured	NIST
598.3721 nm	7	Ba III	emission	5p5.(2P<3/2>).7p 2[1/2] → 5p5.(2P<3/2>).7d 2[1/2]*	Measured	NIST
658.3333 nm	7	Ba III	emission	5p5.(2P<3/2>).7p 2[3/2] → 5p5.(2P<3/2>).7d 2[3/2]*	Measured	NIST
565.8601 nm	6	Ba III	emission	5p5.(2P<1/2>).5d 2[5/2] → 5p5.(2P*<3/2>).4f 2[7/2]	Measured	NIST
569.7415 nm	6	Ba III	emission	5p5.(2P<3/2>).5f 2[3/2] → 5p5.(2P<3/2>).7d 2[3/2]*	Measured	NIST
571.6614 nm	6	Ba III	emission	5p5.(2P<3/2>).7p 2[1/2] → 5p5.(2P<3/2>).7d 2[3/2]*	Measured	NIST
572.6169 nm	6	Ba III	emission	5p5.(2P<3/2>).7p 2[3/2] → 5p5.(2P<3/2>).7d 2[3/2]*	Measured	NIST
581.3545 nm	6	Ba III	emission	5p5.(2P<3/2>).5f 2[3/2] → 5p5.(2P<3/2>).7d 2[1/2]*	Measured	NIST
607.6665 nm	6	Ba III	emission	5p5.(2P<3/2>).5f 2[7/2] → 5p5.(2P<3/2>).7d 2[5/2]*	Measured	NIST
613.1372 nm	6	Ba III	emission	5p5.(2P<3/2>).7p 2[5/2] → 5p5.(2P<3/2>).7d 2[1/2]*	Measured	NIST
640.614 nm	6	Ba III	emission	5p5.(2P<3/2>).7p 2[1/2] → 5p5.(2P<3/2>).7d 2[3/2]*	Measured	NIST

Extended Properties

Covalent Radii (Extended)

Covalent radius (Pyykkö)

Covalent radius (Pyykkö, double)

Covalent radius (Pyykkö, triple)

Covalent radius (Bragg)

Van der Waals Radii

Truhlar

Batsanov

Alvarez

UFF

MM3

Atomic & Metallic Radii

Atomic radius (Rahm)

Metallic radius (C12)

Numbering Scales

Mendeleev

Pettifor

Glawe

Electronegativity Scales

Ghosh

Miedema

Gunnarsson–Lundqvist

Robles–Bartolotti

Polarizability & Dispersion

Dipole polarizability

Dipole polarizability (unc.)

C₆ (Gould–Bučko)

Miedema Parameters

Miedema molar volume

Miedema electron density

Supply Risk & Economics

Production concentration

Relative supply risk

Reserve distribution

Political stability (top producer)

Political stability (top reserve)

Phase Transitions & Allotropes

Melting point	1000.15 K
Boiling point	2118.15 K

Oxidation State Categories

+1 extended

+2 main

Advanced Reference Data

Screening Constants (12)

n	Orbital	σ
1	s	1.1139
2	p	4.1904
2	s	14.7532
3	d	13.9757
3	p	18.6836
3	s	18.8444
4	d	32.216
4	p	29.1968
4	s	28.08
5	p	41.1995

Crystal Radii Detail (7)

Charge	CN	r_crystal (pm)	Origin
2	VI	149
2	VII	152	calculated,
2	VIII	156
2	IX	161
2	X	166
2	XI	171
2	XII	175	calculated,

Isotope Decay Modes (55)

Isotope	Mode	Intensity
113	p	—
113	A	—
114	B+	100%
114	B+p	20%
114	A	0.9%
114	12C	0%
115	B+	100%
115	B+p	15%
116	B+	100%
116	B+p	3%

X‑ray Scattering Factors (508)

Energy (eV)	f₁	f₂
10	—	0.10258
10.1617	—	0.10761
10.3261	—	0.11287
10.4931	—	0.1184
10.6628	—	0.1242
10.8353	—	0.13028
11.0106	—	0.13666
11.1886	—	0.14335
11.3696	—	0.15037
11.5535	—	0.15773

Additional Data

Estimated Crustal Abundance

The estimated element abundance in the earth's crust.

4.25×102 milligrams per kilogram

References (1)

[5] Barium https://education.jlab.org/itselemental/ele056.html

Estimated Oceanic Abundance

The estimated element abundance in the earth's oceans.

1.3×10-2 milligrams per liter

References (1)

[5] Barium https://education.jlab.org/itselemental/ele056.html

Sources

Sources of this element.

It is found only in combination with other elements, chiefly with sulfate and carbonate and is prepared by electrolysis of the chloride.

References (1)

[6] Barium https://periodic.lanl.gov/56.shtml

References

(9)

1 PubChem

Data deposited in or computed by PubChem

Visit source

2 Atomic Mass Data Center (AMDC), International Atomic Energy Agency (IAEA)

The half-life and atomic mass data was provided by the Atomic Mass Data Center at the International Atomic Energy Agency.

Visit source License

3 IUPAC Commission on Isotopic Abundances and Atomic Weights (CIAAW)

Barium

Element data are cited from the Atomic weights of the elements (an IUPAC Technical Report). The IUPAC periodic table of elements can be found at https://iupac.org/what-we-do/periodic-table-of-elements/. Additional information can be found within IUPAC publication doi:10.1515/pac-2015-0703 Copyright © 2020 International Union of Pure and Applied Chemistry.

Visit source License

4 IUPAC Periodic Table of the Elements and Isotopes (IPTEI)

The information are cited from Pure Appl. Chem. 2018; 90(12): 1833-2092, https://doi.org/10.1515/pac-2015-0703.

Visit source License

License note: Copyright (c) 2020 International Union of Pure and Applied Chemistry. The International Union of Pure and Applied Chemistry (IUPAC) contribution within Pubchem is provided under a CC-BY-NC-ND 4.0 license, unless otherwise stated.

5 Jefferson Lab, U.S. Department of Energy

Barium

Thomas Jefferson National Accelerator Facility (Jefferson Lab) is one of 17 national laboratories funded by the U.S. Department of Energy. The lab's primary mission is to conduct basic research of the atom's nucleus using the lab's unique particle accelerator, known as the Continuous Electron Beam Accelerator Facility (CEBAF). For more information visit https://www.jlab.org/

Visit source License

License note: Please see citation and linking information: https://education.jlab.org/faq/index.html

6 Los Alamos National Laboratory, U.S. Department of Energy

Barium

The periodic table at the LANL (Los Alamos National Laboratory) contains basic element information together with the history, source, properties, use, handling and more. The provenance data may be found from the link under the source name.

Visit source License

7 NIST Physical Measurement Laboratory

Barium

The periodic table contains NIST's critically-evaluated data on atomic properties of the elements. The provenance data that include data for atomic spectroscopy, X-ray and gamma ray, radiation dosimetry, nuclear physics, and condensed matter physics may be found from the link under the source name. Ref: https://www.nist.gov/pml/atomic-spectra-database

Visit source License

8 PubChem Elements

Barium

This section provides all form of data related to element Barium.

License

9 PubChem Elements

Barium

The element property data was retrieved from publications.

License

Last updated: May 1, 2026

Data verified: May 12, 2026

Content is reviewed against latest scientific data.