Input interpretation
![nitrogen dioxide](../image_source/905d9f97d6b74ae6502bbe88b96a3657.png)
nitrogen dioxide
Chemical names and formulas
![formula | NO_2 name | nitrogen dioxide IUPAC name | Nitrogen dioxide alternate names | nitrito | nitro | nitrogen oxide mass fractions | N (nitrogen) 30.4% | O (oxygen) 69.6%](../image_source/264536c25dbb4a0333359aa288f10bfd.png)
formula | NO_2 name | nitrogen dioxide IUPAC name | Nitrogen dioxide alternate names | nitrito | nitro | nitrogen oxide mass fractions | N (nitrogen) 30.4% | O (oxygen) 69.6%
Lewis structure
![Draw the Lewis structure of nitrogen dioxide. Start by drawing the overall structure of the molecule, ignoring potential double and triple bonds: Count the total valence electrons of the nitrogen (n_N, val = 5) and oxygen (n_O, val = 6) atoms: n_N, val + 2 n_O, val = 17 Calculate the number of electrons needed to completely fill the valence shells for nitrogen (n_N, full = 8) and oxygen (n_O, full = 8): n_N, full + 2 n_O, full = 24 Subtracting these two numbers shows that 24 - 17 = 7 bonding electrons are expected (in such cases with an odd number, round down to 6 bonding electrons). Each bond has two electrons, so in addition to the 2 bonds already present in the diagram add 1 bond. To minimize formal charge oxygen wants 2 bonds and nitrogen wants 3 bonds. Identify the atoms that want additional bonds and the number of electrons remaining on each atom: Fill in the 1 bond by pairing electrons between adjacent highlighted atoms. Note that double bonding nitrogen to the other highlighted oxygen atom would result in an equivalent molecule: Answer: | |](../image_source/95726f0817936d635c7e3ebc911fda47.png)
Draw the Lewis structure of nitrogen dioxide. Start by drawing the overall structure of the molecule, ignoring potential double and triple bonds: Count the total valence electrons of the nitrogen (n_N, val = 5) and oxygen (n_O, val = 6) atoms: n_N, val + 2 n_O, val = 17 Calculate the number of electrons needed to completely fill the valence shells for nitrogen (n_N, full = 8) and oxygen (n_O, full = 8): n_N, full + 2 n_O, full = 24 Subtracting these two numbers shows that 24 - 17 = 7 bonding electrons are expected (in such cases with an odd number, round down to 6 bonding electrons). Each bond has two electrons, so in addition to the 2 bonds already present in the diagram add 1 bond. To minimize formal charge oxygen wants 2 bonds and nitrogen wants 3 bonds. Identify the atoms that want additional bonds and the number of electrons remaining on each atom: Fill in the 1 bond by pairing electrons between adjacent highlighted atoms. Note that double bonding nitrogen to the other highlighted oxygen atom would result in an equivalent molecule: Answer: | |
3D structure
![3D structure](../image_source/6dd600652394273a5d0fec97d88f5c0b.png)
3D structure
Basic properties
![molar mass | 46.005 g/mol phase | gas (at STP) melting point | -11 °C boiling point | 21 °C density | 0.00188 g/cm^3 (at 25 °C) solubility in water | reacts](../image_source/3bcab7647ca4786195023064319fd4ae.png)
molar mass | 46.005 g/mol phase | gas (at STP) melting point | -11 °C boiling point | 21 °C density | 0.00188 g/cm^3 (at 25 °C) solubility in water | reacts
Units
Gas properties (at STP)
![density | 0.00188 g/cm^3 (at 25 °C) vapor density | 1.58 (relative to air) molar volume | 24470 cm^3/mol dynamic viscosity | 4.02×10^-4 Pa s (at 25 °C)](../image_source/1b02f8625031670e8ee5454aa97cfb1c.png)
density | 0.00188 g/cm^3 (at 25 °C) vapor density | 1.58 (relative to air) molar volume | 24470 cm^3/mol dynamic viscosity | 4.02×10^-4 Pa s (at 25 °C)
Units
Thermodynamic properties
![specific heat capacity c_p | gas | 0.8086 J/(g K) molar heat capacity c_p | gas | 37.2 J/(mol K) specific free energy of formation Δ_fG° | gas | 1.115 kJ/g molar free energy of formation Δ_fG° | gas | 51.3 kJ/mol specific heat of formation Δ_fH° | gas | 0.7217 kJ/g molar heat of formation Δ_fH° | gas | 33.2 kJ/mol specific entropy S° | gas | 5.217 J/(g K) molar entropy S° | gas | 240 J/(mol K) molar heat of vaporization | 38.1 kJ/mol | specific heat of vaporization | 0.828 kJ/g | molar heat of fusion | 6.54 kJ/mol | specific heat of fusion | 0.1422 kJ/g | critical temperature | 430.9 K | critical pressure | 10.13 MPa | (at STP)](../image_source/df37128c5689b7995b65b14e29f19f47.png)
specific heat capacity c_p | gas | 0.8086 J/(g K) molar heat capacity c_p | gas | 37.2 J/(mol K) specific free energy of formation Δ_fG° | gas | 1.115 kJ/g molar free energy of formation Δ_fG° | gas | 51.3 kJ/mol specific heat of formation Δ_fH° | gas | 0.7217 kJ/g molar heat of formation Δ_fH° | gas | 33.2 kJ/mol specific entropy S° | gas | 5.217 J/(g K) molar entropy S° | gas | 240 J/(mol K) molar heat of vaporization | 38.1 kJ/mol | specific heat of vaporization | 0.828 kJ/g | molar heat of fusion | 6.54 kJ/mol | specific heat of fusion | 0.1422 kJ/g | critical temperature | 430.9 K | critical pressure | 10.13 MPa | (at STP)
Chemical identifiers
![CAS number | 10102-44-0 PubChem CID number | 3032552 PubChem SID number | 24857797 SMILES identifier | N(=O)[O] InChI identifier | InChI=1/NO2/c2-1-3 RTECS number | QW9800000 MDL number | MFCD00085341](../image_source/25ee898efd7ee7b88806a09dc426e61d.png)
CAS number | 10102-44-0 PubChem CID number | 3032552 PubChem SID number | 24857797 SMILES identifier | N(=O)[O] InChI identifier | InChI=1/NO2/c2-1-3 RTECS number | QW9800000 MDL number | MFCD00085341
NFPA label
![NFPA label](../image_source/af170df8e0da42a454f5d2a0ce675699.png)
NFPA label
![NFPA health rating | 3 NFPA fire rating | 0 NFPA reactivity rating | 0 NFPA hazards | oxidizing agent](../image_source/7f9b5616a9a47f6fc00c922472383041.png)
NFPA health rating | 3 NFPA fire rating | 0 NFPA reactivity rating | 0 NFPA hazards | oxidizing agent
Toxicity properties
![short-term exposure limit | 9 mg/m^3](../image_source/daf2f9886fe59100f1ecbd74216484cf.png)
short-term exposure limit | 9 mg/m^3
![long-term exposure limit | 5 mg/m^3 (over 8 hours) RTECS classes | mutagen | reproductive effector | human data](../image_source/085e374ef849e11c44aadfa0eb5fceeb.png)
long-term exposure limit | 5 mg/m^3 (over 8 hours) RTECS classes | mutagen | reproductive effector | human data