ChemEd DL Application: Models 360

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Related Molecules

C₈H₇Cl
E-2-chloroethenyl benzene
C₁₄H₁₂
E-2-phenylethenyl benzene
C₄H₄O₄
E-butenedioic acid
C₅₇H₉₈O₆
Linolein
C₅H₁₀
2-methylbut-2-ene
C₅H₈
2-methylbuta-1,3-diene
C₅H₈
3E-penta-1,3-diene
C₅H₈
3Z-penta-1,3-diene
C₄H₈
E-but-2-ene
C₇H₁₄
E-hept-2-ene
C₇H₁₄
E-hept-3-ene
C₆H₁₂
E-hex-2-ene
C₆H₁₂
E-hex-3-ene
C₈H₁₆
E-oct-2-ene
C₈H₁₆
E-oct-3-ene
C₈H₁₆
E-oct-4-ene
C₅H₁₀
E-pent-2-ene
C₄H₈
Z-but-2-ene
C₇H₁₂
Z-cycloheptene
C₈H₁₄
Z-cyclooctene
C₇H₁₄
Z-hept-2-ene
C₇H₁₄
Z-hept-3-ene
C₆H₁₂
Z-hex-2-ene
C₆H₁₂
Z-hex-3-ene
C₈H₁₆
Z-oct-2-ene
C₈H₁₆
Z-oct-3-ene
C₈H₁₆
Z-oct-4-ene
C₅H₁₀
Z-pent-2-ene
C₄H₈
But-1-ene
C₇H₁₀
Cyclohepta-1,3-diene
C₇H₈
Cyclohepta-1,3,5-triene
C₇H₁₀
Cyclohepta-1,4-diene
C₆H₈
Cyclohexa-1,3-diene
C₆H₈
Cyclohexa-1,4-diene
C₆H₁₀
Cyclohexene
C₈H₁₂
Cycloocta-1,3-diene
C₈H₁₀
Cycloocta-1,3,5-triene
C₈H₈
Cycloocta-1,3,5,7-tetraene
C₅H₆
Cyclopenta-1,3-diene
C₅H₈
Cyclopentene
CH₂CH₂
Ethylene
C₇H₁₄
Hept-1-ene
C₆H₁₂
Hex-1-ene
C₈H₁₆
Oct-1-ene
C₅H₁₀
Pent-1-ene
C₃H₆
Propene
C₆H₇N
1H-azepine
C₈H₇Cl
1-chloro-2-ethenylbenzene
C₆H₆O
Oxepin
C₂₀H₃₀O₂
5Z,8Z,11Z,14Z,17Z-eicosa-5,8,11,14,17-pentaenoic acid
C₁₈H₃₀O₂
6Z,9Z,12Z-octadeca-6,9,12-trienoic acid
C₂₀H₃₂O₂
Arachidonic acid
C₂₂H₃₂O₂
Cervonic acid
C₁₈H₃₀O₂
Linolenic acid
C₁₈H₃₄O₂
Oleic acid
C₃H₅Cl
3-chloropropene
C₅H₄O₃
3-methylfuran-2,5-dione
C₄H₂O₃
Furan-2,5-dione
C₆H₁₂O
Z-hex-3-en-1-ol
C₃H₄O
Prop-2-enal
C₁₀H₁₆
1R-camphene
C₂₀H₃₀O₂
Abietic acid
C₉H₈
1H-indene
C₂₀H₁₄N₄
Porphin
C₆H₈O
Cyclohex-2-en-1-one
C₉H₈O
2H-chromene
C₉H₈O
4H-chromene
C₁₂H₈
Acenaphthylene

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3Z-penta-1,3-diene C₅H₈

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Symmetry Elements for Point Group Cs

Molecular Orbitals

Smiles:	C=C/C=C/C
Mol. Weight:	68.117
IUPAC name:	(3E)-penta-1,3-diene
Charge:	0
InChi:	1S/C5H8/c1-3-5-4-2/h3-5H,1H2,2H3/b5-4+
Link to:	Pubchem CID:62204

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.

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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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