aluminium 26 Comparison Table

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aluminium 26 comparison table

Subject has pronunciation has space group has nuclear spin has rigidity modulu has isotope mass range stable isotope has heat of vaporization has discoverer has thermal conductivity has discovery date has occurrence has name origin has linear expansion coefficient has heat of fusion has specimen has main mining area has daily dietary intake has diagnostic role has ocean residence time has mineral has melting point has neutron scattering length has origin has image has ocean concentration has covalent radii has term symbol has crystal cell dimension has level in human liver has mass of element in person has poisson's ratio has decay product has reserve has ocean oxidation state has decay mode is a kind of has young's modulu has number of neutron has heat capacity has bulk modulu has van der Waals radii has molar volume has definition has boiling point has number of nucleon has hazard has biological role has ionic radii has electrical resistivity has relative atomic mass has chief source has electron affinity has registry number has density has atomic radii has atomic number has mass magnetic susceptibility has discovery location has level in human bone has number of isotope has toxic intake has abundance has half life is an instance of has atomic emission line reacts with has longest lived isotope has symbol has desintegration energy has use has crystal type has level in human muscle has world production has electron configuration has atomic mass has number of proton has level in human blood has mass absorption coefficient has electronegativity has group has lifetime

aluminium al-oo-min-iuhm Fm3m 26.2 GPa 22 to 31 aluminium 27 293.72 kJ mol^-1 Oersted 237 W m^-1 K^-1 at 300 K 1825 ocean alumen = alum from latin 23.03 K^-1 10.67 kJ mol^-1 foil, granules, ingots, pellets, powder, rod, shot or wire. Safe. Aluminum powder can react dangerously with other materials. Surinam, Jamaica, Ghana, Indonesia, Russia 2.45 mg 150 years bauxite, boehmite, diaspore, gibbsite, andalusite, corundum, sillimanite, topaz 933.52 K 0.3449 × 10^-12 cm depth indenpendent 125 pm ²P_1/2 in ground state a = 404.959 pm 3 - 23 p.p.m. 60 mg for a 70 kg average person 0.345 GPa 6 × 10⁶ tonnes III accumulating oceanic element 70.6 GPa 21.38 J K^-1 mol^-1 for gas at constant pressure 0.1 MPa at 298.15 K 75.2 GPa 205 pm 10.00 cm³ soft and malleable metal 2740 K accumulates in the body from daily intake, compounds are used as food additives and in indigestion tablets none 57 pm for Al³⁺ 2.6548 × 10⁸ Ω m at 293 K 26.981539 in units of ¹²C = 12.000 bauxite 44 kJ mol^-1 from Al to Al^- 7429-90-5 for Chemical Abstracts System database 2390 kg m^-3 for liquid at 933.52 K melting point 143 pm 13 7.7 × 10⁹ kg^-1 m³ for solid Copenhagen, Denmark 4 - 27 p.p.m. 11 5 g 0.13 × 10^-4 p.p.m. in deep Pacific seawater 396.152 nm for Al I (strong) air to produce a thin protective oxide layer aluminium 27 which is stable Al vehicle, aircraft and construction industries f.c.c. 0.7 - 28 p.p.m. 15 × 10⁶ tonnes per year [Ne]3s²3p¹ in ground state 13 0.39 mg dm^-3 5.16 cm² g^-1 for MoK_α X-ray diffraction 1.61 Pauling 13

supernova produced radioactive element exploding core of a supernova the products produced immediately after decay supernova produced element a radioactive element produced within the core of an exploding supernova the total energy produced when the particle decays The average time in which a particle decays

aluminium 26 al-oo-min-iuhm Fm3m I = 5+ 26.2 GPa 22 to 31 aluminium 27 293.72 kJ mol^-1 Oersted 237 W m^-1 K^-1 at 300 K 1825 ocean alumen = alum from latin 23.03 K^-1 10.67 kJ mol^-1 foil, granules, ingots, pellets, powder, rod, shot or wire. Safe. Aluminum powder can react dangerously with other materials. Surinam, Jamaica, Ghana, Indonesia, Russia 2.45 mg if decay products found in a solid then solid must have condensed within the first million years after the creation of Al 26 150 years bauxite, boehmite, diaspore, gibbsite, andalusite, corundum, sillimanite, topaz 933.52 K 0.3449 × 10^-12 cm exploding core of a supernova depth indenpendent 125 pm ²P_1/2 in ground state a = 404.959 pm 3 - 23 p.p.m. 60 mg for a 70 kg average person 0.345 GPa magnesium 26 6 × 10⁶ tonnes III γ 70.6 GPa 13 21.38 J K^-1 mol^-1 for gas at constant pressure 0.1 MPa at 298.15 K 75.2 GPa 205 pm 10.00 cm³ 2740 K 26 accumulates in the body from daily intake, compounds are used as food additives and in indigestion tablets none 57 pm for Al³⁺ 2.6548 × 10⁸ Ω m at 293 K 26.981539 in units of ¹²C = 12.000 bauxite 44 kJ mol^-1 from Al to Al^- 7429-90-5 for Chemical Abstracts System database 2390 kg m^-3 for liquid at 933.52 K melting point 143 pm 13 7.7 × 10⁹ kg^-1 m³ for solid Copenhagen, Denmark 4 - 27 p.p.m. 11 5 g 0.13 × 10^-4 p.p.m. in deep Pacific seawater 7.2 × 10⁵ years supernova produced radioactive element 396.152 nm for Al I (strong) air to produce a thin protective oxide layer aluminium 27 which is stable ²⁶Al the total energy produced when the particle decays research f.c.c. 0.7 - 28 p.p.m. 15 × 10⁶ tonnes per year [Ne]3s²3p¹ in ground state 25.986892 13 0.39 mg dm^-3 5.16 cm² g^-1 for MoK_α X-ray diffraction 1.61 Pauling 13 The average time in which a particle decays

Next aluminium: aluminium 27 Up: aluminium, supernova produced radioactive element Previous aluminium: aluminium 29

Subject	has pronunciation	has space group	has nuclear spin	has rigidity modulu	has isotope mass range	stable isotope	has heat of vaporization	has discoverer	has thermal conductivity	has discovery date	has occurrence	has name origin	has linear expansion coefficient	has heat of fusion	has specimen	has main mining area	has daily dietary intake	has diagnostic role	has ocean residence time	has mineral	has melting point	has neutron scattering length	has origin	has image	has ocean concentration	has covalent radii	has term symbol	has crystal cell dimension	has level in human liver	has mass of element in person	has poisson's ratio	has decay product	has reserve	has ocean oxidation state	has decay mode	is a kind of	has young's modulu	has number of neutron	has heat capacity	has bulk modulu	has van der Waals radii	has molar volume	has definition	has boiling point	has number of nucleon	has hazard	has biological role	has ionic radii	has electrical resistivity	has relative atomic mass	has chief source	has electron affinity	has registry number	has density	has atomic radii	has atomic number	has mass magnetic susceptibility	has discovery location	has level in human bone	has number of isotope	has toxic intake	has abundance	has half life	is an instance of	has atomic emission line	reacts with	has longest lived isotope	has symbol	has desintegration energy	has use	has crystal type	has level in human muscle	has world production	has electron configuration	has atomic mass	has number of proton	has level in human blood	has mass absorption coefficient	has electronegativity	has group	has lifetime
aluminium	al-oo-min-iuhm	Fm3m		26.2 GPa	22 to 31	aluminium 27	293.72 kJ mol^-1	Oersted	237 W m^-1 K^-1 at 300 K	1825	ocean	alumen = alum from latin	23.03 K^-1	10.67 kJ mol^-1	foil, granules, ingots, pellets, powder, rod, shot or wire. Safe. Aluminum powder can react dangerously with other materials.	Surinam, Jamaica, Ghana, Indonesia, Russia	2.45 mg		150 years	bauxite, boehmite, diaspore, gibbsite, andalusite, corundum, sillimanite, topaz	933.52 K	0.3449 × 10^-12 cm			depth indenpendent	125 pm	²P_1/2 in ground state	a = 404.959 pm	3 - 23 p.p.m.	60 mg for a 70 kg average person	0.345 GPa		6 × 10⁶ tonnes	III		accumulating oceanic element	70.6 GPa		21.38 J K^-1 mol^-1 for gas at constant pressure 0.1 MPa at 298.15 K	75.2 GPa	205 pm	10.00 cm³	soft and malleable metal	2740 K		accumulates in the body from daily intake, compounds are used as food additives and in indigestion tablets	none	57 pm for Al³⁺	2.6548 × 10⁸ Ω m at 293 K	26.981539 in units of ¹²C = 12.000	bauxite	44 kJ mol^-1 from Al to Al^-	7429-90-5 for Chemical Abstracts System database	2390 kg m^-3 for liquid at 933.52 K melting point	143 pm	13	7.7 × 10⁹ kg^-1 m³ for solid	Copenhagen, Denmark	4 - 27 p.p.m.	11	5 g	0.13 × 10^-4 p.p.m. in deep Pacific seawater			396.152 nm for Al I (strong)	air to produce a thin protective oxide layer	aluminium 27 which is stable	Al		vehicle, aircraft and construction industries	f.c.c.	0.7 - 28 p.p.m.	15 × 10⁶ tonnes per year	[Ne]3s²3p¹ in ground state		13	0.39 mg dm^-3	5.16 cm² g^-1 for MoK_α X-ray diffraction	1.61 Pauling	13
supernova produced radioactive element																							exploding core of a supernova									the products produced immediately after decay				supernova produced element							a radioactive element produced within the core of an exploding supernova																										the total energy produced when the particle decays												The average time in which a particle decays
aluminium 26	al-oo-min-iuhm	Fm3m	I = 5+	26.2 GPa	22 to 31	aluminium 27	293.72 kJ mol^-1	Oersted	237 W m^-1 K^-1 at 300 K	1825	ocean	alumen = alum from latin	23.03 K^-1	10.67 kJ mol^-1	foil, granules, ingots, pellets, powder, rod, shot or wire. Safe. Aluminum powder can react dangerously with other materials.	Surinam, Jamaica, Ghana, Indonesia, Russia	2.45 mg	if decay products found in a solid then solid must have condensed within the first million years after the creation of Al 26	150 years	bauxite, boehmite, diaspore, gibbsite, andalusite, corundum, sillimanite, topaz	933.52 K	0.3449 × 10^-12 cm	exploding core of a supernova		depth indenpendent	125 pm	²P_1/2 in ground state	a = 404.959 pm	3 - 23 p.p.m.	60 mg for a 70 kg average person	0.345 GPa	magnesium 26	6 × 10⁶ tonnes	III	γ		70.6 GPa	13	21.38 J K^-1 mol^-1 for gas at constant pressure 0.1 MPa at 298.15 K	75.2 GPa	205 pm	10.00 cm³		2740 K	26	accumulates in the body from daily intake, compounds are used as food additives and in indigestion tablets	none	57 pm for Al³⁺	2.6548 × 10⁸ Ω m at 293 K	26.981539 in units of ¹²C = 12.000	bauxite	44 kJ mol^-1 from Al to Al^-	7429-90-5 for Chemical Abstracts System database	2390 kg m^-3 for liquid at 933.52 K melting point	143 pm	13	7.7 × 10⁹ kg^-1 m³ for solid	Copenhagen, Denmark	4 - 27 p.p.m.	11	5 g	0.13 × 10^-4 p.p.m. in deep Pacific seawater	7.2 × 10⁵ years	supernova produced radioactive element	396.152 nm for Al I (strong)	air to produce a thin protective oxide layer	aluminium 27 which is stable	²⁶Al	the total energy produced when the particle decays	research	f.c.c.	0.7 - 28 p.p.m.	15 × 10⁶ tonnes per year	[Ne]3s²3p¹ in ground state	25.986892	13	0.39 mg dm^-3	5.16 cm² g^-1 for MoK_α X-ray diffraction	1.61 Pauling	13	The average time in which a particle decays