Search

vanadium vs krypton vs copper

Input interpretation

vanadium (chemical element) | krypton (chemical element) | copper (chemical element)
vanadium (chemical element) | krypton (chemical element) | copper (chemical element)

Periodic table location

Periodic table location
Periodic table location

Images

Images
Images

Basic elemental properties

| vanadium | krypton | copper atomic symbol | V | Kr | Cu atomic number | 23 | 36 | 29 short electronic configuration | [Ar]4s^23d^3 | [Ar]4s^23d^104p^6 | [Ar]4s^13d^10 Aufbau diagram | 3d 4s | 4p 3d 4s | 3d 4s block | d | p | d group | 5 | 18 | 11 period | 4 | 4 | 4 atomic mass | 50.9415 u | 83.798 u | 63.546 u half-life | (stable) | (stable) | (stable)
| vanadium | krypton | copper atomic symbol | V | Kr | Cu atomic number | 23 | 36 | 29 short electronic configuration | [Ar]4s^23d^3 | [Ar]4s^23d^104p^6 | [Ar]4s^13d^10 Aufbau diagram | 3d 4s | 4p 3d 4s | 3d 4s block | d | p | d group | 5 | 18 | 11 period | 4 | 4 | 4 atomic mass | 50.9415 u | 83.798 u | 63.546 u half-life | (stable) | (stable) | (stable)

Thermodynamic properties

| vanadium | krypton | copper phase at STP | solid | gas | solid melting point | 1910 °C | -157.36 °C | 1084.62 °C boiling point | 3407 °C | -153.22 °C | 2562 °C critical temperature | | 209.41 K | critical pressure | | 5.5 MPa | molar heat of fusion | 22.8 kJ/mol | 1.64 kJ/mol | 13.1 kJ/mol molar heat of vaporization | 453 kJ/mol | 9.02 kJ/mol | 300 kJ/mol specific heat at STP | 489 J/(kg K) | 248.05 J/(kg K) | 384.4 J/(kg K) adiabatic index | | 5/3 | (properties at standard conditions)
| vanadium | krypton | copper phase at STP | solid | gas | solid melting point | 1910 °C | -157.36 °C | 1084.62 °C boiling point | 3407 °C | -153.22 °C | 2562 °C critical temperature | | 209.41 K | critical pressure | | 5.5 MPa | molar heat of fusion | 22.8 kJ/mol | 1.64 kJ/mol | 13.1 kJ/mol molar heat of vaporization | 453 kJ/mol | 9.02 kJ/mol | 300 kJ/mol specific heat at STP | 489 J/(kg K) | 248.05 J/(kg K) | 384.4 J/(kg K) adiabatic index | | 5/3 | (properties at standard conditions)

Material properties

| vanadium | krypton | copper density | 6.11 g/cm^3 | 0.00375 g/cm^3 | 8.96 g/cm^3 liquid density | 5.5 g/cm^3 | | 8.02 g/cm^3 molar volume | 8.337 cm^3/mol | 22300 cm^3/mol | 7.092 cm^3/mol Mohs hardness | 7 (≈ quartz) | | 3 (≈ calcite) Vickers hardness | 628 MPa | | 369 MPa Brinell hardness | 628 MPa | | 874 MPa bulk modulus | 160 GPa | | 140 GPa shear modulus | 47 GPa | | 48 GPa Young's modulus | 128 GPa | | 130 GPa Poisson ratio | 0.37 | | 0.34 refractive index | | 1.000427 | sound speed | 4560 m/s | 1120 m/s | 3570 m/s thermal expansion | 8.4×10^-6 K^(-1) | | 1.65×10^-5 K^(-1) thermal conductivity | 31 W/(m K) | 0.00943 W/(m K) | 400 W/(m K) (properties at standard conditions)
| vanadium | krypton | copper density | 6.11 g/cm^3 | 0.00375 g/cm^3 | 8.96 g/cm^3 liquid density | 5.5 g/cm^3 | | 8.02 g/cm^3 molar volume | 8.337 cm^3/mol | 22300 cm^3/mol | 7.092 cm^3/mol Mohs hardness | 7 (≈ quartz) | | 3 (≈ calcite) Vickers hardness | 628 MPa | | 369 MPa Brinell hardness | 628 MPa | | 874 MPa bulk modulus | 160 GPa | | 140 GPa shear modulus | 47 GPa | | 48 GPa Young's modulus | 128 GPa | | 130 GPa Poisson ratio | 0.37 | | 0.34 refractive index | | 1.000427 | sound speed | 4560 m/s | 1120 m/s | 3570 m/s thermal expansion | 8.4×10^-6 K^(-1) | | 1.65×10^-5 K^(-1) thermal conductivity | 31 W/(m K) | 0.00943 W/(m K) | 400 W/(m K) (properties at standard conditions)

Electromagnetic properties

| vanadium | krypton | copper electrical type | conductor | | conductor resistivity | 2×10^-7 Ω m (ohm meters) | | 1.7×10^-8 Ω m (ohm meters) electrical conductivity | 5×10^6 S/m (siemens per meter) | | 5.9×10^7 S/m (siemens per meter) magnetic type | paramagnetic | diamagnetic | diamagnetic volume magnetic susceptibility | 3.837×10^-4 | -1.65×10^-8 | -9.63×10^-6 mass magnetic susceptibility | 6.28×10^-8 m^3/kg (cubic meters per kilogram) | -4.4×10^-9 m^3/kg (cubic meters per kilogram) | -1.08×10^-9 m^3/kg (cubic meters per kilogram) molar magnetic susceptibility | 3.199×10^-9 m^3/mol (cubic meters per mole) | -3.69×10^-10 m^3/mol (cubic meters per mole) | -6.86×10^-11 m^3/mol (cubic meters per mole) work function | 4.3 eV (Polycrystalline) | | (4.48 to 5.1) eV threshold frequency | 1.04×10^15 Hz (hertz) | | (1.083×10^15 to 1.233×10^15) Hz (hertz) superconducting point | 5.4 K (kelvins) | | color | (silver) | (colorless) | (copper) refractive index | | 1.000427 |
| vanadium | krypton | copper electrical type | conductor | | conductor resistivity | 2×10^-7 Ω m (ohm meters) | | 1.7×10^-8 Ω m (ohm meters) electrical conductivity | 5×10^6 S/m (siemens per meter) | | 5.9×10^7 S/m (siemens per meter) magnetic type | paramagnetic | diamagnetic | diamagnetic volume magnetic susceptibility | 3.837×10^-4 | -1.65×10^-8 | -9.63×10^-6 mass magnetic susceptibility | 6.28×10^-8 m^3/kg (cubic meters per kilogram) | -4.4×10^-9 m^3/kg (cubic meters per kilogram) | -1.08×10^-9 m^3/kg (cubic meters per kilogram) molar magnetic susceptibility | 3.199×10^-9 m^3/mol (cubic meters per mole) | -3.69×10^-10 m^3/mol (cubic meters per mole) | -6.86×10^-11 m^3/mol (cubic meters per mole) work function | 4.3 eV (Polycrystalline) | | (4.48 to 5.1) eV threshold frequency | 1.04×10^15 Hz (hertz) | | (1.083×10^15 to 1.233×10^15) Hz (hertz) superconducting point | 5.4 K (kelvins) | | color | (silver) | (colorless) | (copper) refractive index | | 1.000427 |

Reactivity

| vanadium | krypton | copper valence | 5 | 2 | 2 electronegativity | 1.63 | 3 | 1.9 electron affinity | 50.6 kJ/mol (kilojoules per mole) | 0 kJ/mol (kilojoules per mole) | 118.4 kJ/mol (kilojoules per mole) first ionization energy | 650.9 kJ/mol (kilojoules per mole) | 1350.8 kJ/mol (kilojoules per mole) | 745.5 kJ/mol (kilojoules per mole) ionization energies | 650.9 kJ/mol | 1414 kJ/mol | 2830 kJ/mol | 4507 kJ/mol | 6298.7 kJ/mol | 12363 kJ/mol | 14530 kJ/mol | 16730 kJ/mol | 19860 kJ/mol | 22240 kJ/mol | 24670 kJ/mol | 29730 kJ/mol | 32446 kJ/mol | 86450 kJ/mol | 94170 kJ/mol | 102300 kJ/mol | 112700 kJ/mol | 121600 kJ/mol | 130700 kJ/mol | 143400 kJ/mol | 151440 kJ/mol | 1350.8 kJ/mol | 2350.4 kJ/mol | 3565 kJ/mol | 5070 kJ/mol | 6240 kJ/mol | 7570 kJ/mol | 10710 kJ/mol | 12138 kJ/mol | 22274 kJ/mol | 25880 kJ/mol | 29700 kJ/mol | 33800 kJ/mol | 37700 kJ/mol | 43100 kJ/mol | 47500 kJ/mol | 52200 kJ/mol | 57100 kJ/mol | 61800 kJ/mol | 75800 kJ/mol | 80400 kJ/mol | 85300 kJ/mol | 745.5 kJ/mol | 1957.9 kJ/mol | 3555 kJ/mol | 5536 kJ/mol | 7700 kJ/mol | 9900 kJ/mol | 13400 kJ/mol | 16000 kJ/mol | 19200 kJ/mol | 22400 kJ/mol | 25600 kJ/mol | 35600 kJ/mol | 38700 kJ/mol | 42000 kJ/mol | 46700 kJ/mol | 50200 kJ/mol | 53700 kJ/mol | 61100 kJ/mol | 64702 kJ/mol | 163700 kJ/mol | 174100 kJ/mol
| vanadium | krypton | copper valence | 5 | 2 | 2 electronegativity | 1.63 | 3 | 1.9 electron affinity | 50.6 kJ/mol (kilojoules per mole) | 0 kJ/mol (kilojoules per mole) | 118.4 kJ/mol (kilojoules per mole) first ionization energy | 650.9 kJ/mol (kilojoules per mole) | 1350.8 kJ/mol (kilojoules per mole) | 745.5 kJ/mol (kilojoules per mole) ionization energies | 650.9 kJ/mol | 1414 kJ/mol | 2830 kJ/mol | 4507 kJ/mol | 6298.7 kJ/mol | 12363 kJ/mol | 14530 kJ/mol | 16730 kJ/mol | 19860 kJ/mol | 22240 kJ/mol | 24670 kJ/mol | 29730 kJ/mol | 32446 kJ/mol | 86450 kJ/mol | 94170 kJ/mol | 102300 kJ/mol | 112700 kJ/mol | 121600 kJ/mol | 130700 kJ/mol | 143400 kJ/mol | 151440 kJ/mol | 1350.8 kJ/mol | 2350.4 kJ/mol | 3565 kJ/mol | 5070 kJ/mol | 6240 kJ/mol | 7570 kJ/mol | 10710 kJ/mol | 12138 kJ/mol | 22274 kJ/mol | 25880 kJ/mol | 29700 kJ/mol | 33800 kJ/mol | 37700 kJ/mol | 43100 kJ/mol | 47500 kJ/mol | 52200 kJ/mol | 57100 kJ/mol | 61800 kJ/mol | 75800 kJ/mol | 80400 kJ/mol | 85300 kJ/mol | 745.5 kJ/mol | 1957.9 kJ/mol | 3555 kJ/mol | 5536 kJ/mol | 7700 kJ/mol | 9900 kJ/mol | 13400 kJ/mol | 16000 kJ/mol | 19200 kJ/mol | 22400 kJ/mol | 25600 kJ/mol | 35600 kJ/mol | 38700 kJ/mol | 42000 kJ/mol | 46700 kJ/mol | 50200 kJ/mol | 53700 kJ/mol | 61100 kJ/mol | 64702 kJ/mol | 163700 kJ/mol | 174100 kJ/mol
Reactivity
Reactivity

Atomic properties

| vanadium | krypton | copper term symbol | ^4F_(3/2) | ^1S_0 | ^2S_(1/2) atomic radius | 135 pm | 88 pm | 135 pm covalent radius | 153 pm | 116 pm | 132 pm van der Waals radius | | 202 pm | 140 pm (electronic ground state properties)
| vanadium | krypton | copper term symbol | ^4F_(3/2) | ^1S_0 | ^2S_(1/2) atomic radius | 135 pm | 88 pm | 135 pm covalent radius | 153 pm | 116 pm | 132 pm van der Waals radius | | 202 pm | 140 pm (electronic ground state properties)

Abundances

| vanadium | krypton | copper universe abundance | 1×10^-4 mass% | 4×10^-6 mass% | 6×10^-6 mass% solar abundance | 4×10^-5 mass% | | 7×10^-5 mass% meteorite abundance | 0.0061 mass% | | 0.011 mass% crust abundance | 0.019 mass% | 1.5×10^-8 mass% | 0.0068 mass% ocean abundance | 1.5×10^-7 mass% | 2.1×10^-8 mass% | 3×10^-7 mass% human abundance | 3×10^-6 mass% | | 1×10^-4 mass% universe molar abundance | 2×10^-6 mol% | 6×10^-8 mol% | 1×10^-7 mol% solar molar abundance | 9×10^-7 mol% | | 9.9×10^-7 mol% meteorite molar abundance | 0.0023 mol% | | 0.0031 mol% ocean molar abundance | 1.8×10^-8 mol% | 1.6×10^-9 mol% | 2.9×10^-8 mol% crust molar abundance | 0.0075 mol% | 4×10^-9 mol% | 0.0022 mol% human molar abundance | 4×10^-7 mol% | | 9.9×10^-6 mol%
| vanadium | krypton | copper universe abundance | 1×10^-4 mass% | 4×10^-6 mass% | 6×10^-6 mass% solar abundance | 4×10^-5 mass% | | 7×10^-5 mass% meteorite abundance | 0.0061 mass% | | 0.011 mass% crust abundance | 0.019 mass% | 1.5×10^-8 mass% | 0.0068 mass% ocean abundance | 1.5×10^-7 mass% | 2.1×10^-8 mass% | 3×10^-7 mass% human abundance | 3×10^-6 mass% | | 1×10^-4 mass% universe molar abundance | 2×10^-6 mol% | 6×10^-8 mol% | 1×10^-7 mol% solar molar abundance | 9×10^-7 mol% | | 9.9×10^-7 mol% meteorite molar abundance | 0.0023 mol% | | 0.0031 mol% ocean molar abundance | 1.8×10^-8 mol% | 1.6×10^-9 mol% | 2.9×10^-8 mol% crust molar abundance | 0.0075 mol% | 4×10^-9 mol% | 0.0022 mol% human molar abundance | 4×10^-7 mol% | | 9.9×10^-6 mol%

Random Queries

formula of 10,16-dihydroxypalmitate vs cuminaldehyde
CAS number of gray arsenic
melting point of barium chloride
freezing point of ammonium-d 4bromide vs formic acid-13 C
deuteroxide anion vs acetate anion vs iodate anion
melting point of sulfuric acid
formula of beryllate anion vs sulfate anion
formula of sulfuric acid vs sodium bisulfate
PubChem SID number of choline glycerophosphate vs 1-(o-carboxy-phenylamino)-1-deoxy-D-ribulose-5-phosphate
CaCl2 + H2C2O4 = HCl + CaC2O4