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element types of titanium tetrachloride

Input interpretation

titanium tetrachloride | element types
titanium tetrachloride | element types

Result

chlorine | titanium
chlorine | titanium

Periodic table location

Periodic table location
Periodic table location

Images

Images
Images

Basic elemental properties

 | chlorine | titanium atomic symbol | Cl | Ti atomic number | 17 | 22 short electronic configuration | [Ne]3s^23p^5 | [Ar]4s^23d^2 Aufbau diagram | 3p  3s | 3d  4s  block | p | d group | 17 | 4 period | 3 | 4 atomic mass | 35.45 u | 47.867 u half-life | (stable) | (stable)
| chlorine | titanium atomic symbol | Cl | Ti atomic number | 17 | 22 short electronic configuration | [Ne]3s^23p^5 | [Ar]4s^23d^2 Aufbau diagram | 3p 3s | 3d 4s block | p | d group | 17 | 4 period | 3 | 4 atomic mass | 35.45 u | 47.867 u half-life | (stable) | (stable)

Thermodynamic properties

 | chlorine | titanium phase at STP | gas | solid melting point | -101.5 °C | 1668 °C boiling point | -34.04 °C | 3287 °C critical temperature | 416.9 K |  critical pressure | 7.991 MPa |  molar heat of fusion | 3.2 kJ/mol | 18.7 kJ/mol molar heat of vaporization | 10.2 kJ/mol | 425 kJ/mol specific heat at STP | 478.2 J/(kg K) | 520 J/(kg K) adiabatic index | 7/5 |  (properties at standard conditions)
| chlorine | titanium phase at STP | gas | solid melting point | -101.5 °C | 1668 °C boiling point | -34.04 °C | 3287 °C critical temperature | 416.9 K | critical pressure | 7.991 MPa | molar heat of fusion | 3.2 kJ/mol | 18.7 kJ/mol molar heat of vaporization | 10.2 kJ/mol | 425 kJ/mol specific heat at STP | 478.2 J/(kg K) | 520 J/(kg K) adiabatic index | 7/5 | (properties at standard conditions)

Material properties

 | chlorine | titanium density | 0.003214 g/cm^3 | 4.507 g/cm^3 liquid density | | 4.11 g/cm^3 molar volume | 11030 cm^3/mol | 10.62 cm^3/mol Mohs hardness | | 6 (≈ microcline) Vickers hardness | | 970 MPa Brinell hardness | | 716 MPa bulk modulus | 1.1 GPa | 110 GPa shear modulus | | 44 GPa Young's modulus | | 116 GPa Poisson ratio | | 0.32 tensile yield strength | | 140 MPa ultimate tensile strength | | 220 MPa refractive index | 1.000773 |  sound speed | 206 m/s | 4140 m/s thermal expansion | | 8.6×10^-6 K^(-1) thermal conductivity | 0.0089 W/(m K) | 22 W/(m K) (properties at standard conditions)
| chlorine | titanium density | 0.003214 g/cm^3 | 4.507 g/cm^3 liquid density | | 4.11 g/cm^3 molar volume | 11030 cm^3/mol | 10.62 cm^3/mol Mohs hardness | | 6 (≈ microcline) Vickers hardness | | 970 MPa Brinell hardness | | 716 MPa bulk modulus | 1.1 GPa | 110 GPa shear modulus | | 44 GPa Young's modulus | | 116 GPa Poisson ratio | | 0.32 tensile yield strength | | 140 MPa ultimate tensile strength | | 220 MPa refractive index | 1.000773 | sound speed | 206 m/s | 4140 m/s thermal expansion | | 8.6×10^-6 K^(-1) thermal conductivity | 0.0089 W/(m K) | 22 W/(m K) (properties at standard conditions)

Electromagnetic properties

 | chlorine | titanium electrical type | insulator | conductor resistivity | 100 Ω m (ohm meters) | 4×10^-7 Ω m (ohm meters) electrical conductivity | 0.01 S/m (siemens per meter) | 2.5×10^6 S/m (siemens per meter) magnetic type | diamagnetic | paramagnetic volume magnetic susceptibility | -2.31×10^-8 | 1.807×10^-4 mass magnetic susceptibility | -7.2×10^-9 m^3/kg (cubic meters per kilogram) | 4.01×10^-8 m^3/kg (cubic meters per kilogram) molar magnetic susceptibility | -5.11×10^-10 m^3/mol (cubic meters per mole) | 1.919×10^-9 m^3/mol (cubic meters per mole) work function | | 4.33 eV (Polycrystalline) threshold frequency | | 1.047×10^15 Hz (hertz) superconducting point | | 0.4 K (kelvins) color | (yellow) | (silver) refractive index | 1.000773 |
| chlorine | titanium electrical type | insulator | conductor resistivity | 100 Ω m (ohm meters) | 4×10^-7 Ω m (ohm meters) electrical conductivity | 0.01 S/m (siemens per meter) | 2.5×10^6 S/m (siemens per meter) magnetic type | diamagnetic | paramagnetic volume magnetic susceptibility | -2.31×10^-8 | 1.807×10^-4 mass magnetic susceptibility | -7.2×10^-9 m^3/kg (cubic meters per kilogram) | 4.01×10^-8 m^3/kg (cubic meters per kilogram) molar magnetic susceptibility | -5.11×10^-10 m^3/mol (cubic meters per mole) | 1.919×10^-9 m^3/mol (cubic meters per mole) work function | | 4.33 eV (Polycrystalline) threshold frequency | | 1.047×10^15 Hz (hertz) superconducting point | | 0.4 K (kelvins) color | (yellow) | (silver) refractive index | 1.000773 |

Reactivity

 | chlorine | titanium valence | 5 | 4 electronegativity | 3.16 | 1.54 electron affinity | 349 kJ/mol (kilojoules per mole) | 7.6 kJ/mol (kilojoules per mole) first ionization energy | 1251.2 kJ/mol (kilojoules per mole) | 658.8 kJ/mol (kilojoules per mole) ionization energies | 1251.2 kJ/mol | 2298 kJ/mol | 3822 kJ/mol | 5158.6 kJ/mol | 6542 kJ/mol | 9362 kJ/mol | 11018 kJ/mol | 33604 kJ/mol | 38600 kJ/mol | 43961 kJ/mol | 658.8 kJ/mol | 1309.8 kJ/mol | 2652.5 kJ/mol | 4174.6 kJ/mol | 9581 kJ/mol | 11533 kJ/mol | 13590 kJ/mol | 16440 kJ/mol | 18530 kJ/mol | 20833 kJ/mol | 25575 kJ/mol | 28125 kJ/mol | 76015 kJ/mol | 83280 kJ/mol | 90880 kJ/mol | 100700 kJ/mol | 109100 kJ/mol | 117800 kJ/mol | 129900 kJ/mol | 137530 kJ/mol | 602930 kJ/mol
| chlorine | titanium valence | 5 | 4 electronegativity | 3.16 | 1.54 electron affinity | 349 kJ/mol (kilojoules per mole) | 7.6 kJ/mol (kilojoules per mole) first ionization energy | 1251.2 kJ/mol (kilojoules per mole) | 658.8 kJ/mol (kilojoules per mole) ionization energies | 1251.2 kJ/mol | 2298 kJ/mol | 3822 kJ/mol | 5158.6 kJ/mol | 6542 kJ/mol | 9362 kJ/mol | 11018 kJ/mol | 33604 kJ/mol | 38600 kJ/mol | 43961 kJ/mol | 658.8 kJ/mol | 1309.8 kJ/mol | 2652.5 kJ/mol | 4174.6 kJ/mol | 9581 kJ/mol | 11533 kJ/mol | 13590 kJ/mol | 16440 kJ/mol | 18530 kJ/mol | 20833 kJ/mol | 25575 kJ/mol | 28125 kJ/mol | 76015 kJ/mol | 83280 kJ/mol | 90880 kJ/mol | 100700 kJ/mol | 109100 kJ/mol | 117800 kJ/mol | 129900 kJ/mol | 137530 kJ/mol | 602930 kJ/mol
Reactivity
Reactivity

Atomic properties

 | chlorine | titanium term symbol | ^2P_(3/2) | ^3F_2 atomic radius | 100 pm | 140 pm covalent radius | 102 pm | 160 pm van der Waals radius | 175 pm |  (electronic ground state properties)
| chlorine | titanium term symbol | ^2P_(3/2) | ^3F_2 atomic radius | 100 pm | 140 pm covalent radius | 102 pm | 160 pm van der Waals radius | 175 pm | (electronic ground state properties)

Abundances

 | chlorine | titanium universe abundance | 1×10^-4 mass% | 3×10^-4 mass% solar abundance | 8×10^-4 mass% | 4×10^-4 mass% meteorite abundance | 0.037 mass% | 0.054 mass% crust abundance | 0.017 mass% | 0.66 mass% ocean abundance | 2 mass% | 1×10^-7 mass% human abundance | 0.12 mass% |  universe molar abundance | 4×10^-6 mol% | 8×10^-6 mol% solar molar abundance | 3×10^-5 mol% | 9.9×10^-6 mol% meteorite molar abundance | 0.016 mol% | 0.023 mol% ocean molar abundance | 0.35 mol% | 1.3×10^-8 mol% crust molar abundance | 0.0099 mol% | 0.29 mol% human molar abundance | 0.021 mol% |
| chlorine | titanium universe abundance | 1×10^-4 mass% | 3×10^-4 mass% solar abundance | 8×10^-4 mass% | 4×10^-4 mass% meteorite abundance | 0.037 mass% | 0.054 mass% crust abundance | 0.017 mass% | 0.66 mass% ocean abundance | 2 mass% | 1×10^-7 mass% human abundance | 0.12 mass% | universe molar abundance | 4×10^-6 mol% | 8×10^-6 mol% solar molar abundance | 3×10^-5 mol% | 9.9×10^-6 mol% meteorite molar abundance | 0.016 mol% | 0.023 mol% ocean molar abundance | 0.35 mol% | 1.3×10^-8 mol% crust molar abundance | 0.0099 mol% | 0.29 mol% human molar abundance | 0.021 mol% |

Nuclear properties

 | chlorine | titanium half-life | (stable) | (stable) stable isotopes | Cl-35 (75.77%) | Cl-37 (24.23%) | Ti-48 (73.72%) | Ti-46 (8.25%) | Ti-47 (7.44%) | Ti-49 (5.41%) | Ti-50 (5.18%) nuclear spin | Cl-28: 1^+ | Cl-29: 3/2^+ | Cl-30: 3^+ | Cl-31: 3/2^+ | Cl-32: 1^+ | Cl-33: 3/2^+ | Cl-34: 0^+ | Cl-35: 3/2^+ | Cl-36: 2^+ | Cl-37: 3/2^+ | Cl-38: 2^- | Cl-39: 3/2^+ | Cl-40: 2^- | Cl-41: 1/2^+ | Cl-43: 1/2^+ | Cl-45: 1/2^+ | Cl-47: 3/2^+ | Cl-49: 3/2^+ | Cl-51: 3/2^+ | Ti-38: 0^+ | Ti-39: 3/2^+ | Ti-40: 0^+ | Ti-41: 3/2^+ | Ti-42: 0^+ | Ti-43: 7/2^- | Ti-44: 0^+ | Ti-45: 7/2^- | Ti-46: 0^+ | Ti-47: 5/2^- | Ti-48: 0^+ | Ti-49: 7/2^- | Ti-50: 0^+ | Ti-51: 3/2^- | Ti-52: 0^+ | Ti-53: 3/2^- | Ti-54: 0^+ | Ti-55: 1/2^- | Ti-56: 0^+ | Ti-57: 5/2^- | Ti-58: 0^+ | Ti-59: 5/2^- | Ti-60: 0^+ | Ti-61: 1/2^- | Ti-62: 0^+ | Ti-63: 1/2^- unstable isotopes | Cl-36 (0.3 Myr) | Cl-39 (56.2 min) | Cl-38 (37.23 min) | Cl-40 (81 s) | Cl-41 (38.4 s) | Cl-42 (6.8 s) | Cl-43 (3.13 s) | Cl-33 (2.511 s) | Cl-34 (1.5264 s) | Cl-44 (560 ms) | Cl-45 (413 ms) | Cl-32 (298 ms) | Cl-46 (232 ms) | Cl-31 (150 ms) | Cl-47 (101 ms) | Cl-50 (20 ms) | Cl-51 (200 ns) | Cl-48 (200 ns) | Cl-49 (170 ns) | Cl-30 (30 ns) | Cl-29 (20 ns) | Ti-44 (60 yr) | Ti-45 (184.83 min) | Ti-51 (5.77 min) | Ti-52 (100 s) | Ti-53 (32.7 s) | Ti-54 (1.5 s) | Ti-55 (1.3 s) | Ti-43 (509 ms) | Ti-56 (200 ms) | Ti-42 (199 ms) | Ti-41 (80.4 ms) | Ti-58 (59 ms) | Ti-57 (60 ms) | Ti-40 (53.3 ms) | Ti-39 (31 ms) | Ti-59 (30 ms) | Ti-60 (22 ms) | Ti-62 (10 ms) | Ti-61 (10 ms) | Ti-63 (3 ms) | Ti-38 (120 ns) neutron cross-section | 35.3 b | 6.1 b neutron mass absorption | 0.033 m^2/kg | 0.0044 m^2/kg
| chlorine | titanium half-life | (stable) | (stable) stable isotopes | Cl-35 (75.77%) | Cl-37 (24.23%) | Ti-48 (73.72%) | Ti-46 (8.25%) | Ti-47 (7.44%) | Ti-49 (5.41%) | Ti-50 (5.18%) nuclear spin | Cl-28: 1^+ | Cl-29: 3/2^+ | Cl-30: 3^+ | Cl-31: 3/2^+ | Cl-32: 1^+ | Cl-33: 3/2^+ | Cl-34: 0^+ | Cl-35: 3/2^+ | Cl-36: 2^+ | Cl-37: 3/2^+ | Cl-38: 2^- | Cl-39: 3/2^+ | Cl-40: 2^- | Cl-41: 1/2^+ | Cl-43: 1/2^+ | Cl-45: 1/2^+ | Cl-47: 3/2^+ | Cl-49: 3/2^+ | Cl-51: 3/2^+ | Ti-38: 0^+ | Ti-39: 3/2^+ | Ti-40: 0^+ | Ti-41: 3/2^+ | Ti-42: 0^+ | Ti-43: 7/2^- | Ti-44: 0^+ | Ti-45: 7/2^- | Ti-46: 0^+ | Ti-47: 5/2^- | Ti-48: 0^+ | Ti-49: 7/2^- | Ti-50: 0^+ | Ti-51: 3/2^- | Ti-52: 0^+ | Ti-53: 3/2^- | Ti-54: 0^+ | Ti-55: 1/2^- | Ti-56: 0^+ | Ti-57: 5/2^- | Ti-58: 0^+ | Ti-59: 5/2^- | Ti-60: 0^+ | Ti-61: 1/2^- | Ti-62: 0^+ | Ti-63: 1/2^- unstable isotopes | Cl-36 (0.3 Myr) | Cl-39 (56.2 min) | Cl-38 (37.23 min) | Cl-40 (81 s) | Cl-41 (38.4 s) | Cl-42 (6.8 s) | Cl-43 (3.13 s) | Cl-33 (2.511 s) | Cl-34 (1.5264 s) | Cl-44 (560 ms) | Cl-45 (413 ms) | Cl-32 (298 ms) | Cl-46 (232 ms) | Cl-31 (150 ms) | Cl-47 (101 ms) | Cl-50 (20 ms) | Cl-51 (200 ns) | Cl-48 (200 ns) | Cl-49 (170 ns) | Cl-30 (30 ns) | Cl-29 (20 ns) | Ti-44 (60 yr) | Ti-45 (184.83 min) | Ti-51 (5.77 min) | Ti-52 (100 s) | Ti-53 (32.7 s) | Ti-54 (1.5 s) | Ti-55 (1.3 s) | Ti-43 (509 ms) | Ti-56 (200 ms) | Ti-42 (199 ms) | Ti-41 (80.4 ms) | Ti-58 (59 ms) | Ti-57 (60 ms) | Ti-40 (53.3 ms) | Ti-39 (31 ms) | Ti-59 (30 ms) | Ti-60 (22 ms) | Ti-62 (10 ms) | Ti-61 (10 ms) | Ti-63 (3 ms) | Ti-38 (120 ns) neutron cross-section | 35.3 b | 6.1 b neutron mass absorption | 0.033 m^2/kg | 0.0044 m^2/kg

Identifiers

 | chlorine | titanium CAS number | 7782-50-5 | 7440-32-6 PubChem CID number | 24526 | 23963
| chlorine | titanium CAS number | 7782-50-5 | 7440-32-6 PubChem CID number | 24526 | 23963