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List of experimental bond angles of type aCCC

Bond angles in degrees.
Click on an entry for more experimental geometry data.
Bond type Species Name Angle Comment
aCCC C4H6 1-Methylcyclopropene 50.80 !assumed, C with 2 H in middle
aCCC C3H4 cyclopropene 50.84
aCCC C3H4O Cyclopropanone 57.70
aCCC C4H6 Methylenecyclopropane 58.05 by symmetry
aCCC C3H7N Cyclopropylamine 60.00
aCCC C3H6 Cyclopropane 60.00 b ysymmetry
aCCC C4H6 Bicyclo[1.1.0]butane 60.00 across center and to corner
aCCC C4H6 Bicyclo[1.1.0]butane 60.00 corner of ring
aCCC C5H6 Propellane 63.10 Cax - Ceq - Cax
aCCC C5H8 Spiropentane 63.40
aCCC C4H6 Methylenecyclopropane 63.90 in triangle
aCCC C3H4O Cyclopropanone 64.60 middle C has =O
aCCC C3H6O Oxetane 84.60
aCCC C4H6 Cyclobutene 85.80
aCCC C4H6O Cyclobutanone 88.00 oxygen on end C
aCCC C5H7N Cyclobutanecarbonitrile 88.70 in ring, center C has C#N
aCCC C8H8 cubane 90.00 symmetry
aCCC C4H6O Cyclobutanone 90.90 opposite the O
aCCC C7H8 Norbornadiene 91.90
aCCC C5H8 Cyclobutane, methylene- 92.00 center C has methyl
aCCC C4H6O Cyclobutanone 93.10 oxygen on middle C
aCCC C7H12 Norbornane 93.40
aCCC C5H6 Propellane 95.10 Ceq - Cax - Ceq
aCCC C3H6S Thietane 95.60
aCCC C4H6 Bicyclo[1.1.0]butane 98.30 across a side
aCCC C7H8 Norbornadiene 98.30
aCCC C6H10 Bicyclo[3.1.0]hexane 100.80
aCCC C5H6 1,3-Cyclopentadiene 101.00
aCCC C7H12 Norbornane 102.00
aCCC C7H12 Norbornane 102.70
aCCC C5H8O Cyclopentanone 103.00
aCCC C5H8O Cyclopentanone 104.50 going away from =O
aCCC C4H9N Pyrrolidine 104.90 dependent
aCCC C4H8S Thiophene, tetrahydro- 105.00
aCCC C5H8 Cyclopentene 106.30
aCCC C6H6 Fulvene 106.62
aCCC C7H8 Norbornadiene 107.58
aCCC C4H8O2 1,3-Dioxane 107.70
aCCC C6H10 Bicyclo[3.1.0]hexane 107.90
aCCC C5H10O 2-Butanone, 3-methyl- 108.00 to end
aCCC C6H10 Bicyclo[3.1.0]hexane 108.10
aCCC C5H8 1,4-Pentadiene 108.90
aCCC C7H12 Norbornane 109.00
aCCC C5H11N Piperidine 109.30 from C next to N
aCCC C5H10O 2H-Pyran, tetrahydro- 109.60 opposide O
aCCC C5H10O 2H-Pyran, tetrahydro- 110.00 from C with O
aCCC C(CH3)3NH2 2-Propanamine, 2-methyl- 110.10 average
aCCC C6H10 cyclohexene 110.30
aCCC C5H8O 2H-Pyran, 3,4-dihydro- 110.30 !assumed
aCCC C4H4N2 Succinonitrile 110.40
aCCC C5H8O Cyclopentanone 110.50 center C has =O
aCCC C5H9N Pentanenitrile 110.50
aCCC CH2FCH2CH3 1-Fluoropropane 110.60
aCCC C6H8 1,3-Cyclohexadiene 110.80
aCCC C6H10O cyclohexanone 110.80
aCCC C4H10O Ethanol, 1,1-dimethyl- 110.90
aCCC CH3CCl(CH3)CH3 Propane, 2-chloro-2-methyl- 110.90
aCCC C5H12O Butane, 1-methoxy- 111.10 average
aCCC CH3CH(CH3)CH3 Isobutane 111.15
aCCC C6H12O hexanal 111.26
aCCC C6H12 Cyclohexane 111.28
aCCC CH2ClCH2CH3 Propane, 1-chloro- 111.30
aCCC CH3CHClCH2CH3 Butane, 2-chloro- 111.40 average
aCCC C6H10O cyclohexanone 111.50
aCCC CH3CH(NH2)COOH Alanine 111.60
aCCC C6H10 cyclohexene 111.60
aCCC C2H5CN ethyl cyanide 111.68
aCCC C3H7SH 1-Propanethiol 111.70 !assumed
aCCC C5H10O 2-Butanone, 3-methyl- 111.70 around the ends
aCCC C6H12 (E)-3-methylpent-2-ene 111.80
aCCC C4H10O Methyl propyl ether 111.80
aCCC C6H5CH2CH3 Ethylbenzene 111.80
aCCC CHCCH2CH3 1-Butyne 111.90
aCCC C6H14 Hexane 111.90
aCCC C3H8O2 1,3-Propanediol 112.00
aCCC CH2CHCH2CH2Cl 1-Butene, 4-chloro- 112.00
aCCC CH2CHCH2CH3 1-Butene 112.10
aCCC CH2ClCH2CH2CH3 Butane, 1-chloro- 112.10 average
aCCC C3H8O2 Propylene glycol 112.20
aCCC C5H10S 2H-Thiopyran, tetrahydro- 112.30 closer to S
aCCC C5H10 2-Pentene, (Z)- 112.40
aCCC C3H8 Propane 112.40
aCCC C3H2N2 Malononitrile 112.50
aCCC C7H16 heptane 112.60 rg
aCCC CH2CHCHClCH3 1-Butene, 3-chloro- 112.60
aCCC C4H10O Propane, 2-methoxy- 112.70
aCCC CH3CHClCH3 Propane, 2-chloro- 112.70
aCCC C6H12O hexanal 112.80
aCCC C5H11N Piperidine 112.80 opposite N
aCCC C6H12O hexanal 112.90
aCCC C5H12 Pentane 112.90
aCCC CH3CH(CH3)CN Propanenitrile, 2-methyl- 113.00 !assumed, methyl to methyl
aCCC CH3CCl2CH3 Propane, 2,2-dichloro- 113.00
aCCC CHCl2CH2CH3 1,1-dichloropropane 113.30
aCCC C5H10O 2-Butanone, 3-methyl- 113.40 to end
aCCC CH3CHFCH3 2-Fluoropropane 113.48
aCCC CH3CHSHCH3 2-Propanethiol 113.60
aCCC C5H10S 2H-Thiopyran, tetrahydro- 113.60
aCCC CH3COCH2CH3 2-Butanone 113.80
aCCC CH3CH2CH2CH3 Butane 113.80
aCCC CH3CH2CHO Propanal 113.80
aCCC CH2ClCH2CH3 Propane, 1-chloro- 113.90
aCCC CH2ClCHClCH3 Propane, 1,2-dichloro- 114.40
aCCC C3H5Cl3 Propane, 1,2,3-trichloro- 115.20
aCCC CH3CH(CH3)ONO Isopropyl nitrite 115.20
aCCC C6H10O cyclohexanone 115.30
aCCC CH2C(CH3)CH3 1-Propene, 2-methyl- 115.30
aCCC C5H10 Cyclopropane, 1,1-dimethyl- 115.60 uses out of ring C
aCCC C5H10 2-Pentene, (E)- 115.60
aCCC C3F8 perfluoropropane 115.90
aCCC CH3COCH3 Acetone 116.00
aCCC C5H10 1-Butene, 2-methyl- 116.00 ethyl
aCCC CH3COCH2CH3 2-Butanone 116.30
aCCC C4H6O2 2,3-Butanedione 116.30
aCCC C5H8 1,2-Butadiene, 3-methyl- 116.40
aCCC C4H6S Thiophene, 2,5-dihydro- 116.75 adjusted from listed value of 116.5 to get C=C bond length to agree with listed 1.34
aCCC C6H12O hexanal 116.80
aCCC C5H10O 2-Butanone, 3-methyl- 118.00 center C has =O
aCCC C3H5ClO Oxirane, (chloromethyl)- 119.00
aCCC C5H6 Cyclopropylacetylene 119.30
aCCC C6H5CCH phenylacetylene 119.80
aCCC C6H5CCH phenylacetylene 119.90
aCCC C6H5CCH phenylacetylene 119.90
aCCC C5H8 Ethenylcyclopropane 120.10 ring out
aCCC C6H5CCH phenylacetylene 120.80
aCCC C3H6O Propylene oxide 120.95 !assumed
aCCC CH2CHCHCH2 1,3-Butadiene 122.90
aCCC C5H6S Thiophene, 3-methyl- 123.00 towards methyl
aCCC C3H5 Allyl radical 124.60
aCCC CH2CHCH3 Propene 124.80
aCCC C5H5N Bicyclo[1.1.0]butane-1-carbonitrile 129.10 ring out
aCCC C3O2 Carbon suboxide 178.30 crystal structure
Average 106.15 ±17.87
Min 50.80
Max 178.30