ChemEd DL Application: Models 360

3D structure: Jmol
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Related Molecules

HCO₃^(-)
Bicarbonate Ion
BrF₅
Bromine Pentafluoride
CO₃^(2-)
Carbonate Ion
H₂CO₃
Carbonic Acid
Cl₂
Chlorine
ClO(r)
Chlorine Monoxide
ClF₃
Chlorine Trifluoride
N₂O₄
Dinitrogen Tetraoxide
F₂
Fluorine
HCl
Hydrogen Chloride
HCN
Hydrogen Cyanide
HI
Hydrogen Iodide
H₂O₂
Hydrogen Peroxide
HClO
Hypochlorous Acid
NO₃^(-)
Nitrate Ion
HNO₃
Nitric Acid
NO₂^(-)
Nitrite Ion
N₂
Nitrogen
NO₂(r)
Nitrogen Dioxide
NO₂⁽⁺⁾
Nitrogen Dioxide Ion
NF₃
Nitrogen Trifluoride
HNO₂
Nitrous Acid
N₂O
Nitrous Oxide
O₂
Oxygen
OF₂
Oxygen Difluoride
O₃
Ozone
PH₃
Phosphine
H₃PO₄
Phosphoric Acid
PCl₅
Phosphorus Pentachloride
PCl₃
Phosphorus Trichloride
SO₄^(2-)
Sulfate Ion
SO₃^(2-)
Sulfite Ion
SO₂
Sulfur Dioxide
SF₆
Sulfur Hexafluoride
SF₄
Sulfur Tetrafluoride
I₃^(-)
Triiodide Ion
H₃AsO₄
Arsenic Acid
H₂AsO₄^(-)
Dihydrogen arsenate
HAsO₄^(2-)
Hydrogen arsenate
HPO₄^(2-)
Hydrogen Phosphate
H₃PO₃
Phosphonic (phosphorous) Acid (Taut II)
H₂PO₄^(-)
Dihydrogen phosphate
PO₄^(3-)
Phosphate
Br₂
Bromine
Cl₂O
Dichlorine oxide
ClF
Chlorine Fluoride
HBr
Hydrogen Bromide
HF
Hydrogen Fluoride
HNO
Hyponitrous Acid
N₂F₂(E)
Dinitrogen Difluoride (E)
N₂F₂(Z)
Dinitrogen Difluoride (Z)
N₂O₃
Dinitrogen Trioxide
NO₃(r)
Nitrogen Trioxide
PF₃
Phosphorus Trifluoride
PF₅
Phosphorus Pentafluoride
SiCl₂
Silicon Dichloride
SiCl₄
Silicon Tetrachloride
SiO₂
Silicon Dioxide
HSO₄^(-)
Hydrogen Sulfate
ClO^(-)
Hypochlorite Ion
ClO₂^(-)
Chlorite Ion
HClO₃
Chloric acid
ClO₃^(-)
Chlorate Ion
HClO₄
Perchloric acid
ClO₄^(-)
Perchlorate Ion
HBrO
Hypobromous Acid
BrO^(-)
Hypobromite Ion
HBrO₂
Bromous Acid
BrO₂^(-)
Bromite Ion
HBrO₃
Bromic acid
HBrO₄
Perbromic acid
BrO₄^(-)
Perbromate Ion
HIO
Hypoiodous Acid
IO^(-)
Hypoiodite Ion
HIO₂
Iodous Acid
IO₂^(-)
Iodite Ion
HIO₃
Iodic acid
IO₃^(-)
Iodate Ion
HIO₄
Periodic acid
IO₄^(-)
Periodate Ion
I₂
Molecular iodine

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Nitrogen Dioxide NO₂(r)

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Spin Molecule VdW radii

Bond Length Bond Angles

Atom Labels Partial charges Labels off

Molecular Dipole Bond Dipoles

Molecular Electrostatic Potential (MEP)

Molecular Vibrations

Symmetry Elements for Point Group C2v

Molecular Orbitals

Smiles:	N(=O)[O]
Mol. Weight:	46.006
IUPAC name:
Charge:	0
InChi:	InChI=1S/NO2/c2-1-3
Link to:	Pubchem CID:3032552

Additional Information

The molecular structure has been optimized at the B3LYP/6-31g* level of theory. Charges used for electrostatic maps are computed using the NBO method. The molecular vibrations are the eigenvectors of the Hessian of the potential.

The symmetry group was detected using Serguei Patchkovskii's code (http://www.cobalt.chem.ucalgary.ca/ps/symmetry/)

Most of the Jmol drawing capabilities (Symmetry, Electrostatic Maps, Vibrations and others) are developed by Bob Hanson and the Jmol community of developers.

WebPage/Iframe with Jmol

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Export to ChemPRIME/MediaWiki

ChemPRIME project is a full general chemistry textbook available online through the ChemEd DL. We seek collaborators to add exemplars to ChemPRIME that describe chemistry topics within various contexts, such as biological science, food chemistry, and everyday life. ChemPRIME is built using MediaWiki (the same platform used to build Wikipedia). ChemEd DL encourages users to add Jmols from Models360 to their own exemplars. MediaWiki does not allow full HTML code to be inserted, so the ChemEd DL community has created a MediaWiki extension that enables embedding Jmols. The extension is installed in ChemPRIME, so the code below allows you to add this Jmol to a ChemPRIME page. More information is at ChemPRIME Help:Media. Contact us if you would like to use this MediaWiki extension on your own wiki.

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<chemeddl-jmol>3032552|size=250|caption=XXX</chemeddl-jmol>

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Export to ChemPaths (Drupal), ChemEd Courses (Moodle)

ChemPaths is the ChemEd DL's Drupal-powered integrated online textbook. Students can explore a full online textbook or other learning pathways. Instructors can sign-up to build their own pathways through course material. Drupal does not allow full HTML code to be inserted, so the ChemEd DL community has created a Drupal extension that enables embedding Jmols. The extension is installed in ChemPaths (currently in beta-testing), so the code below allows you to add this Jmol to a course in a pathway. If you would like to use this Drupal extension within your own Drupal installation, contact us.

ChemEd Courses is the ChemEd DL's Moodle course management system. Users can manage their own courses, or develop learning resources in Moodle to share with the community. Moodle does not allow full HTML code to be inserted, so the ChemEd DL community has created a Moodle extension that enables embedding Jmols. The extension is installed in ChemEd Courses, so the code below allows you to add this Jmol to a course in ChemEd Courses. If you would like to use this Moodle extension within your own Moodle installation, contact us.

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[chemeddl-jmol]3032552|size=250[/chemeddl-jmol]

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