All results from a given calculation for CH₂CCHCH₃ (1,2-Butadiene)

Energy calculated at B1B95/6-311G**

	hartrees
Energy at 0K	-155.925226
Energy at 298.15K	-155.930205
Nuclear repulsion energy	102.710177

The energy at 298.15K was derived from the energy at 0K and an integrated heat capacity that used the calculated vibrational frequencies.

Vibrational Frequencies calculated at B1B95/6-311G**

Mode Number	Symmetry	Frequency (cm-1)	Scaled Frequency (cm-1)	IR Intensities (km mol-1)	Raman Act (Å4/u)	Dep P	Dep U
1	A'	3151	3025	21.40
2	A'	3135	3010	4.78
3	A'	3132	3007	1.17
4	A'	3041	2920	35.05
5	A'	2079	1996	41.43
6	A'	1501	1442	3.21
7	A'	1465	1407	9.78
8	A'	1399	1343	3.03
9	A'	1354	1300	6.42
10	A'	1155	1108	0.12
11	A'	1089	1045	3.01
12	A'	886	851	6.36
13	A'	869	834	53.31
14	A'	572	549	8.49
15	A'	209	200	1.42
16	A"	3211	3083	3.61
17	A"	3099	2975	21.41
18	A"	1479	1420	7.71
19	A"	1052	1010	0.35
20	A"	1011	971	0.07
21	A"	896	860	18.42
22	A"	540	518	4.78
23	A"	342	328	7.63
24	A"	166	159	0.81

Unscaled Zero Point Vibrational Energy (zpe) 18415.0 cm^-1
Scaled (by 0.9601) Zero Point Vibrational Energy (zpe) 17680.2 cm^-1
See section III.C.1 List or set vibrational scaling factors to change the scale factors used here.
See section III.C.2 Calculate a vibrational scaling factor for a given set of molecules to determine the least squares best scaling factor.

Rotational Constants (cm^-1) from geometry optimized at B1B95/6-311G**

A	B	C
1.15831	0.14071	0.13193

See section I.F.4 to change rotational constant units

Geometric Data calculated at B1B95/6-311G**

Point Group is C_s

Cartesians (Å)

Atom	x (Å)	y (Å)	z (Å)
C1	-0.681	1.820	0.000
C2	0.000	0.711	0.000
C3	0.678	-0.401	0.000
C4	0.073	-1.774	0.000
H5	-0.976	2.301	0.927
H6	-0.976	2.301	-0.927
H7	1.763	-0.335	0.000
H8	-1.015	-1.726	0.000
H9	0.393	-2.339	-0.879
H10	0.393	-2.339	0.879

Atom - Atom Distances (Å)

	C1	C2	C3	C4	H5	H6	H7	H8	H9	H10
C1		1.3015	2.6038	3.6723	1.0847	1.0847	3.2586	3.5615	4.3843	4.3843
C2	1.3015		1.3023	2.4860	2.0830	2.0830	2.0501	2.6395	3.1981	3.1981
C3	2.6038	1.3023		1.5000	3.3007	3.3007	1.0877	2.1490	2.1465	2.1465
C4	3.6723	2.4860	1.5000		4.3087	4.3087	2.2199	1.0888	1.0930	1.0930
H5	1.0847	2.0830	3.3007	4.3087		1.8530	3.9126	4.1323	5.1636	4.8377
H6	1.0847	2.0830	3.3007	4.3087	1.8530		3.9126	4.1323	4.8377	5.1636
H7	3.2586	2.0501	1.0877	2.2199	3.9126	3.9126		3.1068	2.5817	2.5817
H8	3.5615	2.6395	2.1490	1.0888	4.1323	4.1323	3.1068		1.7696	1.7696
H9	4.3843	3.1981	2.1465	1.0930	5.1636	4.8377	2.5817	1.7696		1.7588
H10	4.3843	3.1981	2.1465	1.0930	4.8377	5.1636	2.5817	1.7696	1.7588

More geometry information
Calculated Bond Angles

atom1	atom2	atom3	angle		atom1	atom2	atom3	angle
C1	C2	C3	179.802		C2	C1	H5	121.336
C2	C1	H6	121.336		C2	C3	C4	124.880
C2	C3	H7	117.854		C3	C4	H8	111.232
C3	C4	H9	110.775		C3	C4	H10	110.775
C4	C3	H7	117.266		H5	C1	H6	117.329
H8	C4	H9	108.394		H8	C4	H10	108.394
H9	C4	H10	107.133

Electronic energy levels

Charges, Dipole, Quadrupole and Polarizability
Charges from optimized geometry at B1B95/6-311G** Charges (e)

Number	Element	Mulliken	CHELPG	AIM	ESP
1	C	-0.286
2	C	0.020
3	C	-0.222
4	C	-0.322
5	H	0.139
6	H	0.139
7	H	0.135
8	H	0.132
9	H	0.133
10	H	0.133

Electric dipole moments
Electric dipole components in Debye
(What's a Debye? See section VII.A.3)

	x	y	z	Total
	0.052	-0.408	0.000	0.412
CHELPG
AIM
ESP

Electric Quadrupole moment
Quadrupole components in D Å

Primitive   x y z x -24.704 -1.744 0.000 y -1.744 -23.060 0.000 z 0.000 0.000 -25.456

Traceless   x y z x -0.445 -1.744 0.000 y -1.744 2.020 0.000 z 0.000 0.000 -1.574

Polar 3z2-r2 -3.148 x2-y2 -1.643 xy -1.744 xz 0.000 yz 0.000

Polarizabilities
Components of the polarizability tensor.
Units are ų (Angstrom cubed)
Change units.

	x	y	z
x	6.009	-2.468	0.000
y	-2.468	10.141	0.000
z	0.000	0.000	4.543

<r²> (average value of r²) Ų

<r2>	97.804
(<r2>)1/2	9.890