Difference between revisions of "Lithium"
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==Availability on the Moon== | ==Availability on the Moon== | ||
| − | Lithium is available in the lunar regolith. | + | Lithium is available in the lunar regolith<ref>Dreibus, G., et al. “Lithium and Halogens in Lunar Samples.” ''Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences'', vol. 285, no. 1327, 1977, pp. 49–54. ''JSTOR'', www.jstor.org/stable/74829. Accessed 20 Jan. 2021.</ref>. |
==Production and use== | ==Production and use== | ||
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{{Autostub}} | {{Autostub}} | ||
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| + | == References == | ||
[[Category:Nonmagnetic Elements]] | [[Category:Nonmagnetic Elements]] | ||
[[Category:Solids]] | [[Category:Solids]] | ||
[[Category:Alkali Metals]] | [[Category:Alkali Metals]] | ||
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Revision as of 06:18, 20 January 2021
| Lithium | |
|---|---|
| Li | |
| In situ availability: | |
| Necessity: | |
| Atomic number: | 3 |
| Atomic mass: | 6.941 |
| group: | 1 |
| period: | 2 |
| normal phase: | Solid |
| series: | Alkali metals |
| density: | 0.534 g/cm3 |
| melting point: | 453.69K, 180.54°C, 356.97°F |
| boiling point: | 1615K, 1342°C, 2448°F |
| N/A ← H → N/A | |
| He ← Li → Be | |
| N/A ← Na → Mg | |
| Atomic radius (pm): | 145 pm |
| Bohr radius (pm): | 167 |
| Covalent radius (pm): | 134 |
| Van der Waals radius (pm): | 182 |
| ionic radius (pm): | (+1) 76 |
| 1st ion potential (eV): | 5.39 |
| Electron Configuration | |
| 1s2 2s1 | |
| Electrons Per Shell | |
| 2, 1 | |
| Electronegativity: | 0.98 |
| Electron Affinity: | 0.62 |
| Oxidation states: | 1 |
| Magnetism: | Nonmagnetic |
| Crystal structure: | Body centered cubic |
Lithium is a Alkali metal in group 1.
It has a Body centered cubic crystalline structure.
This element has two stable isotopes: 6 and 7.
Availability on the Moon
Lithium is available in the lunar regolith[1].
Production and use
Lithium is used in energy storage devices and some alloys of aluminum.
This article is an automatically generated stub. As such it may contain serious errors.
You can help Lunarpedia by expanding or correcting it. |
References
- ↑ Dreibus, G., et al. “Lithium and Halogens in Lunar Samples.” Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences, vol. 285, no. 1327, 1977, pp. 49–54. JSTOR, www.jstor.org/stable/74829. Accessed 20 Jan. 2021.
