pyrrolidine

pyrrolidine 382 Pyrrolidine

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#	Species	Formula
372	Trimethylamine (Geo)	C3H9N
373	n-Propylamine	C3H9N
374	Trimethylamine	C3H9N
375	(E)-2-Butenenitrile	C4H5N
376	(Z)-2-Butenenitrile	C4H5N
377	3-Butenenitrile	C4H5N
378	Pyrrole (Geo)	C4H5N
379	Pyrrole	C4H5N
380	Butanenitrile	C4H7N
381	Isobutane nitrile	C4H7N
382	Pyrrolidine	C4H9N
383	2-Butylamine	C4H11N
384	2-Methyl-1-propylamine	C4H11N
385	N-Butylamine	C4H11N
386	t-Butylamine	C4H11N
387	Pyridine (Geo)	C5H5N
388	Pyridine	C5H5N
389	N-Methyl pyrrole	C5H7N
390	2-Cyanobutane	C5H9N
391	Butyl cyanide	C5H9N
392	1,2,3,6-Tetrahydropyridine	C5H9N

ΔH_f: -0.8 kcal/mol, REF: J. O. Cox, G. Pilcher, "Thermochemistry of Organic and Organometallic Compounds," Academic Press, New York, N.Y., 1970.

  

Pyrrolidine
 H=-0.8 HR=C&P1970
  C     0.00000000 +0    0.0000000 +0    0.0000000 +0     0     0     0
  C     1.54000450 +1    0.0000000 +0    0.0000000 +0     1     0     0
  C     1.54855650 +1  105.5045539 +1    0.0000000 +0     2     1     0
  C     1.54828716 +1  105.4978638 +1   -0.0026328 +1     1     2     3
  N     1.48502170 +1  107.8797087 +1  -16.5080991 +1     4     1     2
  H     1.10015690 +1  111.5933778 +1  120.8019501 +1     1     2     3
  H     1.10057849 +1  111.2023431 +1 -120.6039068 +1     1     2     3
  H     1.10022969 +1  111.5781219 +1 -120.7450882 +1     2     1     3
  H     1.10053754 +1  111.2177241 +1  120.6553080 +1     2     1     3
  H     1.11082284 +1  110.7495248 +1 -100.7880288 +1     3     2     1
  H     1.10351371 +1  112.3980871 +1  139.3667854 +1     3     2     1
  H     1.11089417 +1  110.7187838 +1  100.7233112 +1     4     1     2
  H     1.10345387 +1  112.4190239 +1 -139.4393580 +1     4     1     2
  H     1.01741942 +1  110.8468363 +1  -93.2370144 +1     5     4     1