All results from a given calculation for H₂OCH₃OH (water methanol dimer)

Energy calculated at HF/6-311+G(3df,2p)

	hartrees
Energy at 0K	-191.154677
Energy at 298.15K	-191.159976
Counterpoise corrected energy
CP Energy at 298.15K
Counterpoise optimized geometry corrected energy
CP opt. Energy at 298.15K
Nuclear repulsion energy	78.477223

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 HF/6-311+G(3df,2p)

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	4230	3843	139.16
2	A	4196	3813	71.22
3	A	4091	3717	235.71
4	A	3260	2962	31.23
5	A	3206	2913	58.02
6	A	3155	2867	62.29
7	A	1771	1609	74.17
8	A	1631	1481	5.40
9	A	1622	1474	3.63
10	A	1612	1464	6.12
11	A	1481	1346	41.60
12	A	1283	1166	2.32
13	A	1162	1056	144.43
14	A	1158	1052	17.35
15	A	575	522	106.24
16	A	347	315	103.19
17	A	283	257	115.10
18	A	148	134	2.00
19	A	109	99	124.52
20	A	51	46	13.89
21	A	41	38	10.47

Unscaled Zero Point Vibrational Energy (zpe) 17705.6 cm^-1
Scaled (by 0.9086) Zero Point Vibrational Energy (zpe) 16087.3 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 HF/6-311+G(3df,2p)

A	B	C
1.14387	0.11889	0.11121

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

Geometric Data calculated at HF/6-311+G(3df,2p)

Point Group is C₁

Cartesians (Å)

Atom	x (Å)	y (Å)	z (Å)
H1	1.322	0.093	0.031
O2	2.222	-0.183	0.105
O3	-0.671	0.589	-0.081
H4	2.634	0.038	-0.709
H5	-0.934	1.331	0.429
C6	-1.633	-0.429	0.003
H7	-2.586	-0.107	-0.402
H8	-1.271	-1.262	-0.581
H9	-1.774	-0.760	1.026

Atom - Atom Distances (Å)

	H1	O2	O3	H4	H5	C6	H7	H8	H9
H1		0.9446	2.0570	1.5079	2.6039	3.0008	3.9368	2.9891	3.3622
O2	0.9446		3.0006	0.9390	3.5155	3.8645	4.8355	3.7202	4.1418
O3	2.0570	3.0006		3.4097	0.9387	1.4028	2.0623	2.0083	2.0644
H4	1.5079	0.9390	3.4097		3.9624	4.3517	5.2313	4.1183	4.8047
H5	2.6039	3.5155	0.9387	3.9624		1.9418	2.3435	2.8035	2.3321
C6	3.0008	3.8645	1.4028	4.3517	1.9418		1.0844	1.0795	1.0843
H7	3.9368	4.8355	2.0623	5.2313	2.3435	1.0844		1.7584	1.7678
H8	2.9891	3.7202	2.0083	4.1183	2.8035	1.0795	1.7584		1.7572
H9	3.3622	4.1418	2.0644	4.8047	2.3321	1.0843	1.7678	1.7572

More geometry information
Calculated Bond Angles

atom1	atom2	atom3	angle		atom1	atom2	atom3	angle
H1	O2	H4	106.357		H1	O3	H5	115.585
H1	O3	C6	119.088		O2	H1	O3	176.641
O3	C6	H7	111.381		O3	C6	H8	107.295
O3	C6	H9	111.564		H5	O3	C6	110.490
H7	C6	H8	108.704		H7	C6	H9	109.203
H8	C6	H9	108.601

Electronic energy levels

Charges, Dipole, Quadrupole and Polarizability
Charges from optimized geometry at HF/6-311+G(3df,2p) Charges (e)

Number	Element	Mulliken	CHELPG	AIM	ESP
1	H	0.410
2	O	-0.609
3	O	-0.684
4	H	0.211
5	H	0.196
6	C	0.142
7	H	0.107
8	H	0.115
9	H	0.112

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

	x	y	z	Total
	-2.862	0.971	-0.595	3.080
CHELPG
AIM
ESP

Electric Quadrupole moment
Quadrupole components in D Å

Primitive   x y z x -19.951 1.153 -5.268 y 1.153 -18.366 1.471 z -5.268 1.471 -19.066

Traceless   x y z x -1.235 1.153 -5.268 y 1.153 1.143 1.471 z -5.268 1.471 0.092

Polar 3z2-r2 0.184 x2-y2 -1.585 xy 1.153 xz -5.268 yz 1.471

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

	x	y	z
x	4.267	0.128	-0.081
y	0.128	3.849	0.045
z	-0.081	0.045	3.621

<r²> (average value of r²) Ų

<r2>	0.000
(<r2>)1/2	0.000