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iodine vs niobium vs molybdenum

Input interpretation

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iodine (chemical element) | niobium (chemical element) | molybdenum (chemical element)

iodine (chemical element) | niobium (chemical element) | molybdenum (chemical element)

Periodic table location

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Periodic table location

Periodic table location

Images

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Images

Images

Basic elemental properties

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| iodine | niobium | molybdenum atomic symbol | I | Nb | Mo atomic number | 53 | 41 | 42 short electronic configuration | [Kr]5s^24d^105p^5 | [Kr]5s^14d^4 | [Kr]5s^14d^5 Aufbau diagram | 5p 4d 5s | 4d 5s | 4d 5s block | p | d | d group | 17 | 5 | 6 period | 5 | 5 | 5 atomic mass | 126.90447 u | 92.90637 u | 95.95 u half-life | (stable) | (stable) | (stable)

| iodine | niobium | molybdenum atomic symbol | I | Nb | Mo atomic number | 53 | 41 | 42 short electronic configuration | [Kr]5s^24d^105p^5 | [Kr]5s^14d^4 | [Kr]5s^14d^5 Aufbau diagram | 5p 4d 5s | 4d 5s | 4d 5s block | p | d | d group | 17 | 5 | 6 period | 5 | 5 | 5 atomic mass | 126.90447 u | 92.90637 u | 95.95 u half-life | (stable) | (stable) | (stable)

Thermodynamic properties

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| iodine | niobium | molybdenum phase at STP | solid | solid | solid melting point | 113.7 °C | 2477 °C | 2623 °C boiling point | 184.3 °C | 4744 °C | 4639 °C critical temperature | 819 K | | critical pressure | 11.7 MPa | | molar heat of fusion | 7.76 kJ/mol | 26.8 kJ/mol | 36 kJ/mol molar heat of vaporization | 20.9 kJ/mol | 690 kJ/mol | 600 kJ/mol specific heat at STP | 429 J/(kg K) | 265 J/(kg K) | 251 J/(kg K) (properties at standard conditions)

| iodine | niobium | molybdenum phase at STP | solid | solid | solid melting point | 113.7 °C | 2477 °C | 2623 °C boiling point | 184.3 °C | 4744 °C | 4639 °C critical temperature | 819 K | | critical pressure | 11.7 MPa | | molar heat of fusion | 7.76 kJ/mol | 26.8 kJ/mol | 36 kJ/mol molar heat of vaporization | 20.9 kJ/mol | 690 kJ/mol | 600 kJ/mol specific heat at STP | 429 J/(kg K) | 265 J/(kg K) | 251 J/(kg K) (properties at standard conditions)

Material properties

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| iodine | niobium | molybdenum density | 4.94 g/cm^3 | 8.57 g/cm^3 | 10.28 g/cm^3 liquid density | | | 9.33 g/cm^3 molar volume | 25.69 cm^3/mol | 10.84 cm^3/mol | 9.33 cm^3/mol Mohs hardness | | 6 (≈ microcline) | 5.5 (between apatite and microcline) Vickers hardness | | 1320 MPa | 1530 MPa Brinell hardness | | 736 MPa | 1500 MPa bulk modulus | 7.7 GPa | 170 GPa | 230 GPa shear modulus | | 38 GPa | 20 GPa Young's modulus | | 105 GPa | 329 GPa Poisson ratio | | 0.4 | 0.31 sound speed | | 3480 m/s | 6190 m/s thermal expansion | | 7.3×10^-6 K^(-1) | 4.8×10^-6 K^(-1) thermal conductivity | 0.449 W/(m K) | 54 W/(m K) | 139 W/(m K) (properties at standard conditions)

| iodine | niobium | molybdenum density | 4.94 g/cm^3 | 8.57 g/cm^3 | 10.28 g/cm^3 liquid density | | | 9.33 g/cm^3 molar volume | 25.69 cm^3/mol | 10.84 cm^3/mol | 9.33 cm^3/mol Mohs hardness | | 6 (≈ microcline) | 5.5 (between apatite and microcline) Vickers hardness | | 1320 MPa | 1530 MPa Brinell hardness | | 736 MPa | 1500 MPa bulk modulus | 7.7 GPa | 170 GPa | 230 GPa shear modulus | | 38 GPa | 20 GPa Young's modulus | | 105 GPa | 329 GPa Poisson ratio | | 0.4 | 0.31 sound speed | | 3480 m/s | 6190 m/s thermal expansion | | 7.3×10^-6 K^(-1) | 4.8×10^-6 K^(-1) thermal conductivity | 0.449 W/(m K) | 54 W/(m K) | 139 W/(m K) (properties at standard conditions)

Electromagnetic properties

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| iodine | niobium | molybdenum electrical type | insulator | conductor | conductor resistivity | 1×10^7 Ω m (ohm meters) | 1.5×10^-7 Ω m (ohm meters) | 5×10^-8 Ω m (ohm meters) electrical conductivity | 1×10^-7 S/m (siemens per meter) | 6.7×10^6 S/m (siemens per meter) | 2×10^7 S/m (siemens per meter) magnetic type | diamagnetic | paramagnetic | paramagnetic volume magnetic susceptibility | -2.22×10^-5 | 2.37×10^-4 | 1.203×10^-4 mass magnetic susceptibility | -4.5×10^-9 m^3/kg (cubic meters per kilogram) | 2.76×10^-8 m^3/kg (cubic meters per kilogram) | 1.17×10^-8 m^3/kg (cubic meters per kilogram) molar magnetic susceptibility | -1.14×10^-9 m^3/mol (cubic meters per mole) | 2.56×10^-9 m^3/mol (cubic meters per mole) | 1.122×10^-9 m^3/mol (cubic meters per mole) work function | | (3.95 to 4.87) eV | (4.36 to 4.95) eV threshold frequency | | (9.551×10^14 to 1.178×10^15) Hz (hertz) | (1.054×10^15 to 1.197×10^15) Hz (hertz) superconducting point | | 9.25 K (kelvins) | 0.915 K (kelvins) color | (slate gray) | (gray) | (gray)

| iodine | niobium | molybdenum electrical type | insulator | conductor | conductor resistivity | 1×10^7 Ω m (ohm meters) | 1.5×10^-7 Ω m (ohm meters) | 5×10^-8 Ω m (ohm meters) electrical conductivity | 1×10^-7 S/m (siemens per meter) | 6.7×10^6 S/m (siemens per meter) | 2×10^7 S/m (siemens per meter) magnetic type | diamagnetic | paramagnetic | paramagnetic volume magnetic susceptibility | -2.22×10^-5 | 2.37×10^-4 | 1.203×10^-4 mass magnetic susceptibility | -4.5×10^-9 m^3/kg (cubic meters per kilogram) | 2.76×10^-8 m^3/kg (cubic meters per kilogram) | 1.17×10^-8 m^3/kg (cubic meters per kilogram) molar magnetic susceptibility | -1.14×10^-9 m^3/mol (cubic meters per mole) | 2.56×10^-9 m^3/mol (cubic meters per mole) | 1.122×10^-9 m^3/mol (cubic meters per mole) work function | | (3.95 to 4.87) eV | (4.36 to 4.95) eV threshold frequency | | (9.551×10^14 to 1.178×10^15) Hz (hertz) | (1.054×10^15 to 1.197×10^15) Hz (hertz) superconducting point | | 9.25 K (kelvins) | 0.915 K (kelvins) color | (slate gray) | (gray) | (gray)

Reactivity

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| iodine | niobium | molybdenum valence | 7 | 5 | 6 electronegativity | 2.66 | 1.6 | 2.16 electron affinity | 295.2 kJ/mol (kilojoules per mole) | 86.1 kJ/mol (kilojoules per mole) | 71.9 kJ/mol (kilojoules per mole) first ionization energy | 1008.4 kJ/mol (kilojoules per mole) | 652.1 kJ/mol (kilojoules per mole) | 684.3 kJ/mol (kilojoules per mole) ionization energies | 1008.4 kJ/mol | 1845.9 kJ/mol | 3180 kJ/mol | 652.1 kJ/mol | 1380 kJ/mol | 2416 kJ/mol | 3700 kJ/mol | 4877 kJ/mol | 9847 kJ/mol | 12100 kJ/mol | 684.3 kJ/mol | 1560 kJ/mol | 2618 kJ/mol | 4480 kJ/mol | 5257 kJ/mol | 6640.8 kJ/mol | 12125 kJ/mol | 13860 kJ/mol | 15835 kJ/mol | 17980 kJ/mol | 20190 kJ/mol | 22219 kJ/mol | 26930 kJ/mol | 29196 kJ/mol | 52490 kJ/mol | 55000 kJ/mol | 61400 kJ/mol | 67700 kJ/mol | 74000 kJ/mol | 80400 kJ/mol | 87000 kJ/mol

| iodine | niobium | molybdenum valence | 7 | 5 | 6 electronegativity | 2.66 | 1.6 | 2.16 electron affinity | 295.2 kJ/mol (kilojoules per mole) | 86.1 kJ/mol (kilojoules per mole) | 71.9 kJ/mol (kilojoules per mole) first ionization energy | 1008.4 kJ/mol (kilojoules per mole) | 652.1 kJ/mol (kilojoules per mole) | 684.3 kJ/mol (kilojoules per mole) ionization energies | 1008.4 kJ/mol | 1845.9 kJ/mol | 3180 kJ/mol | 652.1 kJ/mol | 1380 kJ/mol | 2416 kJ/mol | 3700 kJ/mol | 4877 kJ/mol | 9847 kJ/mol | 12100 kJ/mol | 684.3 kJ/mol | 1560 kJ/mol | 2618 kJ/mol | 4480 kJ/mol | 5257 kJ/mol | 6640.8 kJ/mol | 12125 kJ/mol | 13860 kJ/mol | 15835 kJ/mol | 17980 kJ/mol | 20190 kJ/mol | 22219 kJ/mol | 26930 kJ/mol | 29196 kJ/mol | 52490 kJ/mol | 55000 kJ/mol | 61400 kJ/mol | 67700 kJ/mol | 74000 kJ/mol | 80400 kJ/mol | 87000 kJ/mol

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Reactivity

Reactivity

Atomic properties

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| iodine | niobium | molybdenum term symbol | ^2P_(3/2) | ^6D_(1/2) | ^7S_3 atomic radius | 140 pm | 145 pm | 145 pm covalent radius | 139 pm | 164 pm | 154 pm van der Waals radius | 198 pm | | (electronic ground state properties)

| iodine | niobium | molybdenum term symbol | ^2P_(3/2) | ^6D_(1/2) | ^7S_3 atomic radius | 140 pm | 145 pm | 145 pm covalent radius | 139 pm | 164 pm | 154 pm van der Waals radius | 198 pm | | (electronic ground state properties)

Abundances

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| iodine | niobium | molybdenum universe abundance | 1×10^-7 mass% | 2×10^-7 mass% | 5×10^-7 mass% solar abundance | | 4×10^-7 mass% | 9×10^-7 mass% meteorite abundance | 2.5×10^-5 mass% | 1.9×10^-5 mass% | 1.2×10^-4 mass% crust abundance | 4.9×10^-5 mass% | 0.0017 mass% | 1.1×10^-4 mass% ocean abundance | 6×10^-6 mass% | 1×10^-10 mass% | 1×10^-6 mass% human abundance | 2×10^-5 mass% | | 1×10^-5 mass% universe molar abundance | 1×10^-9 mol% | 0 mol% | 1×10^-8 mol% solar molar abundance | | 5×10^-9 mol% | 9.9×10^-9 mol% meteorite molar abundance | 3×10^-6 mol% | 3×10^-6 mol% | 2.5×10^-5 mol% ocean molar abundance | 2.9×10^-7 mol% | 6.7×10^-12 mol% | 6.4×10^-8 mol% crust molar abundance | 8×10^-6 mol% | 3.7×10^-4 mol% | 2.3×10^-5 mol% human molar abundance | 1×10^-6 mol% | | 7×10^-7 mol%

| iodine | niobium | molybdenum universe abundance | 1×10^-7 mass% | 2×10^-7 mass% | 5×10^-7 mass% solar abundance | | 4×10^-7 mass% | 9×10^-7 mass% meteorite abundance | 2.5×10^-5 mass% | 1.9×10^-5 mass% | 1.2×10^-4 mass% crust abundance | 4.9×10^-5 mass% | 0.0017 mass% | 1.1×10^-4 mass% ocean abundance | 6×10^-6 mass% | 1×10^-10 mass% | 1×10^-6 mass% human abundance | 2×10^-5 mass% | | 1×10^-5 mass% universe molar abundance | 1×10^-9 mol% | 0 mol% | 1×10^-8 mol% solar molar abundance | | 5×10^-9 mol% | 9.9×10^-9 mol% meteorite molar abundance | 3×10^-6 mol% | 3×10^-6 mol% | 2.5×10^-5 mol% ocean molar abundance | 2.9×10^-7 mol% | 6.7×10^-12 mol% | 6.4×10^-8 mol% crust molar abundance | 8×10^-6 mol% | 3.7×10^-4 mol% | 2.3×10^-5 mol% human molar abundance | 1×10^-6 mol% | | 7×10^-7 mol%

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