ΔH interface M in O (Miedema) |
-953 |
(kJmol-1) |
|
13823 |
ΔH interface O in M (Miedema) |
-635 |
(kJmol-1) |
|
13823 |
ΔH interface S in M |
-482 |
(kJmol-1) |
|
13823 |
Δinterface M in S (Miedema) |
-482 |
(kJmol-1) |
|
13823 |
γ-free electron to specific heat |
10,2 |
(mJmol-1K-2) |
|
13823 |
Atomic concentration |
3,02 |
(1023 m-3) |
|
13823 |
Atomic electron scattering factor at 0.5 |
1,84 |
|
|
13823 |
Atomic environment number (Villars, Daams) |
12 |
|
|
13823 |
Atomic number start counting left top, left-right sequence |
39 |
|
|
13823 |
Atomic weight |
88,906 |
(10-3 kg) |
|
13823 |
Boiling temperature |
3611 |
(K) |
|
13823 |
Boiling temperature |
3203 |
(K) |
|
19178 |
Boiling temperature |
3613 |
(K) |
|
19178 |
Boiling temperature |
3618 |
(K) |
|
19178 |
Boiling temperature |
3584 |
(K) |
|
5391 |
Bulk modulus |
0 |
(GPa) |
|
13823 |
Charge nuclear effective (Clementi) |
6,26 |
|
|
13823 |
Chemical potential (Miedema) |
3,2 |
|
|
13823 |
Compression modulus |
0,366 |
(GPa) |
|
13823 |
Conductivity electrical |
1,54 |
(104 Ohm-1cm-1) |
|
13823 |
Conductivity thermal |
17,2 |
(Jmol-1K-1) |
|
13823 |
Debye temperature |
280 |
(K) |
|
13823 |
Debye temperature |
244,1 |
(K) |
|
5391 |
Density |
4469 |
(kgm-3) |
hcp, 297 K |
13823 |
Density |
4280 |
(kgm-3) |
bcc, 1751 K |
20518 |
Distance to core electron (Schubert) |
1,22 |
(A) |
|
13823 |
Distance to valence electron (Schubert) |
2,42 |
(A) |
|
13823 |
Electrochemical weight equivalent |
0,30715 |
(mgK-1) |
|
13823 |
Electron affinity |
29,6 |
(kJmol-1) |
|
13823 |
Electronegativity (Alfred-Rochow) |
1,11 |
|
|
13823 |
Electronegativity (Martynov&Batsanov) |
1,41 |
|
|
13823 |
Electronegativity (Pauling) |
1,2 |
|
|
13823 |
Electronegativity absolute |
3,19 |
|
|
13823 |
Energy cohesive (Brewer) |
4,37 |
(Jmol-1) |
|
13823 |
Energy of ionization (first) |
615,6 |
(kJmol-1) |
|
13823 |
Energy of ionization (second) |
1181 |
(kJmol-1) |
|
13823 |
Energy of ionization (third) |
1980 |
(kJmol-1) |
|
13823 |
Enthalpy of atomization |
421,3 |
(kJmol-1) |
|
13823 |
Enthalpy of atomization |
423,3 |
(kJmol-1) |
|
5391 |
Enthalpy of melting |
11,5 |
(kJmol-1) |
|
13823 |
Enthalpy of surface (Miedema) |
116 |
(kJmol-1) |
|
13823 |
Enthalpy of vacancies (Miedema) |
125 |
(kJmol-1) |
|
13823 |
Enthalpy of vaporization |
390 |
(kJmol-1) |
|
19178 |
Enthalpy of vaporization |
365 |
(kJmol-1) |
|
19178 |
Enthalpy of vaporization |
393 |
(kJmol-1) |
|
19178 |
Enthalpy of vaporization |
367,4 |
(kJmol-1) |
|
13823 |
Entropy of solid |
44,826 |
(Jmol-1K-1) |
|
5391 |
Entropy of solid |
46,0548 |
(Jmol-1K-1) |
|
13823 |
Entropy of solid |
44,4 |
(Jmol-1K-1) |
|
20518 |
Group number |
3 |
|
|
13823 |
Hardness (Brinell) |
589 |
[MPa] |
|
13823 |
Linear thermal expansion coefficient |
11,3 |
(10-6K-1) |
|
13823 |
Linear thermal expansion coefficient |
10,6 |
(10-6K-1) |
|
20518 |
Magnetic frequency of nuclei |
4,899 |
|
|
13823 |
Magnetic resonance |
2,086 |
(MHz) |
|
13823 |
Magnetic susceptibility |
0,000000027 |
(m3kg-1) |
|
13823 |
Mass attenuation coefficient FeKα |
252 |
(cm2g-1) |
|
13823 |
Mass attenuation coefficient for CrKα |
396 |
(cm2g-1) |
|
13823 |
Mass attenuation coefficient for CuKα |
134 |
(cm2g-1) |
|
13823 |
Mass attenuation coefficient for MoKα |
100 |
(cm2g-1) |
|
13823 |
Melting temperature |
1795 |
(K) |
|
5391 |
Melting temperature |
1796 |
(K) |
|
13823 |
Mendeleev chemists sequence |
24 |
|
|
13823 |
Mendeleev d-t start left |
16 |
|
|
13823 |
Mendeleev d-t start right |
89 |
|
|
13823 |
Mendeleev H d-t start left |
15 |
|
|
13823 |
Mendeleev H d-t start right |
90 |
|
|
13823 |
Mendeleev H t-d start left |
14 |
|
|
13823 |
Mendeleev H t-d start right |
89 |
|
|
13823 |
Mendeleev Pettifor |
25 |
|
|
13823 |
Mendeleev Pettifor regular |
48 |
|
|
13823 |
Mendeleev t-d start left |
15 |
|
|
13823 |
Mendeleev t-d start right |
88 |
|
|
13823 |
Modulus of rigidity |
25,5 |
(GPa) |
|
13823 |
Molar heat capacity |
26,53 |
(Jmol-1K-1) |
|
13823 |
Molar heat capacity |
26,287 |
(Jmol-1K-1) |
|
5391 |
Moment nuclear magnetic |
0,137 |
(mu) |
|
13823 |
Nuclear charge effective (Slater) |
3 |
|
|
13823 |
nWS^(1/3) (Miedema) |
1,21 |
(a.u.-1/3) |
|
13823 |
Oxidation state (first) |
3 |
|
|
13823 |
Periodic number start counting bottom right, right-left sequence |
65 |
|
|
13823 |
Periodic number start counting left bottom, left-right sequence |
52 |
|
|
13823 |
Periodic number start counting top right, right-left sequence |
52 |
|
|
13823 |
Poisson's ratio |
0,265 |
|
|
13823 |
Quantum number |
5 |
|
|
13823 |
Radii covalent |
162 |
(pm) |
|
13823 |
Radii metal (Waber) |
1,801 |
(A) |
|
13823 |
Radii pseudo-potential (Zunger) |
2,94 |
|
|
13823 |
Resistivity electrical |
57 |
(10-8 Ohmm) |
|
13823 |
Sound velocity |
3300 |
(ms-1) |
|
13823 |
Spectral lines no |
98 |
|
|
13823 |
Spin nuclei |
0,5 |
(h) |
|
13823 |
Surface tension at Tm |
1125 |
(mJm-2) |
|
13823 |
Thermal neutron capture cross section |
1,28 |
(barns) |
|
13823 |
V^(2/3) (Miedema) |
7,34 |
(cm2) |
|
13823 |
Valence electron number |
3 |
|
|
13823 |
Vapour pressure at Tm |
5,31 |
(Nm-2) |
|
13823 |
Volume of atom (Villars, Daams) |
3,318 |
(10-2 nm3) |
|
13823 |
Work function |
3,1 |
(eV) |
|
13823 |
Young's modulus |
66,3 |
(GPa) |
|
13823 |