CCCBDB Experimental bond angles page 2

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Bond type	Species	Name	Angle	Comment
aCC=C	C₃H₄	cyclopropene	64.58	by symmetry
aCC=C	C₄H₆	Cyclobutene	94.20
aCC=C	C₄H₅NO	Isoxazole, 5-methyl-	102.70	!assumed
aCC=C	C₄H₅NO	3-Methylisoxazole	102.70	!assumed
aCC=C	C₃H₃NO	Isoxazole	103.00
aCC=C	C₃H₄N₂	1H-Pyrazole	104.50
aCC=C	C₄H₅N	Pyrrole	104.70
aCC=C	C₄H₄O	Furan	106.10
aCC=C	C₆H₆	Fulvene	107.71
aCC=C	C₄H₂O₃	Maleic Anhydride	107.80
aCC=C	C₆H₈	Bicyclo[2.1.1]hex-2-ene	108.40
aCC=C	C₆H₆	Fulvene	108.98
aCC=C	C₄H₆O	Furan, 2,5-dihydro-	109.30
aCC=C	C₆H₈	Bicyclo[3.1.0]hex-2-ene	112.00
aCC=C	C₄H₄S	Thiophene	112.40
aCC=C	C₅H₆S	Thiophene, 3-methyl-	112.45	!assumed
aCC=C	C₄H₄N₂O₂	Uracil	118.90
aCC=C	CHOCHCHCH₃	2-Butenal	119.83	!assumed, towards =O
aCC=C	C₆H₈	1,3-Cyclohexadiene	120.20	towards other =
aCC=C	C₆H₈	1,3-Cyclohexadiene	120.20	away from =
aCC=C	CH₂CHCHO	Acrolein	120.30
aCC=C	C₅H₆	1-Buten-3-yne, 2-methyl-	120.30	to C with #
aCC=C	C₅H₈	1,3-Butadiene, 2-methyl-	121.00	end C to methyl C
aCC=C	C₅H₈	1,3-Butadiene, 2-methyl-	121.40	middle C has methyl C
aCC=C	CH₂CHCHO	Acrolein	121.40
aCC=C	CH₂CHCH₂F	Allyl Fluoride	121.62
aCC=C	C₆H₈	(Z)-hexa-1,3,5-triene	121.70	from end
aCC=C	C₅H₈	1,2-Butadiene, 3-methyl-	121.80	by symmetry
aCC=C	CH₂C(CH₃)CH₃	1-Propene, 2-methyl-	122.35	by symmetry
aCC=C	C₅H₁₀	1-Butene, 2-methyl-	122.50	to methyl
aCC=C	C₃H₃N	acrylonitrile	122.60
aCC=C	C₁₀H₁₀	bullvalene	122.60
aCC=C	C₆H₈	1,4-Cyclohexadiene	123.00
aCC=C	C₂H₃CCH	1-Buten-3-yne	123.10
aCC=C	C₄H₅N	(E)-2-Butenenitrile	123.20	towards C with N
aCC=C	C₅H₈O	2H-Pyran, 3,4-dihydro-	123.30	!assumed
aCC=C	CH₃CHCHCH₃	2-Butene, (E)-	123.80
aCC=C	C₆H₁₂	2,3-dimethyl-but-2-ene	123.90
aCC=C	CH₂C(CH₃)OCH₃	1-Propene, 2-methoxy-	123.90
aCC=C	C₃H₆O	2-Propen-1-ol	123.90
aCC=C	CH₂CHCH₂CH₂Cl	1-Butene, 4-chloro-	123.90
aCC=C	CH₂CCHCH₃	1,2-Butadiene	124.00
aCC=C	C₅H₆	1-Buten-3-yne, 2-methyl-	124.30	!assumed, to end C
aCC=C	C₄H₅N	(E)-2-Butenenitrile	124.30	!assumed, to end C
aCC=C	C₆H₈	(Z)-hexa-1,3,5-triene	124.40
aCC=C	C₆H₁₂	(E)-3-methylpent-2-ene	124.50
aCC=C	CH₂CHCH₂F	Allyl Fluoride	124.57
aCC=C	C₅H₁₀	1-Butene, 2-methyl-	125.20	to ethyl
aCC=C	CH₂ClCHCHCH₃	2-Butene, 1-chloro-	125.30	average
aCC=C	C₅H₁₀	2-Pentene, (E)-	125.40
aCC=C	CH₃CHCHCH₃	2-Butene, (Z)-	125.40
aCC=C	CH₂CHCH₂CH₃	1-Butene	125.40
aCC=C	C₅H₈	1,4-Pentadiene	125.50
aCC=C	CHOCHCHCH₃	2-Butenal	125.64
aCC=C	C₅H₈	Ethenylcyclopropane	126.20
aCC=C	C₈H₈	cyclooctatetraene	126.55	ae
aCC=C	C₅H₈	1,3-Butadiene, 2-methyl-	127.30	middle C is CH
aCC=C	C₅H₁₀	2-Pentene, (Z)-	127.40	from end
aCC=C	C₄H₆	Methylenecyclopropane	148.05	by symmetry
aCC=C	C₄H₆	1-Methylcyclopropene	152.80	to methyl C
Average			119.07	±12.08
Min			64.58
Max			152.80

	Computational Chemistry Comparison and Benchmark DataBase Release 22 (May 2022) Standard Reference Database 101 National Institute of Standards and Technology
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List of experimental bond angles of type aCC=C