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Computer drawing

We thank M. C. Piotr Surylo of Cracow University of Technology for the computer drawings of the chemical structures. [Pg.339]

Records. The manufacturer shall keep records of all calculations and tests. When requested by prospective purchaser or by a user of the equipment, the manufacturer shall examine the details of computations, drawings, tests, or other supporting data necessary to demonstrate compliance with the specification. It shall be understood that such information is for the sole use of the user or prospective purchaser for checking the API rating, and the manufacturer shall not be required to release the information from his custody. [Pg.535]

Acknowledgments. Dr. M. F. Mansuetto is thanked for his assistance with the computer drawings of the various structures. Support from the U.S. Depart-... [Pg.317]

The author wishes to thank Cheryl A. O Dear and Rita M. Sabo for typing the manuscript and Michael W. Justik for providing computer drawings of equations and structures for the manuscript. [Pg.1270]

Figure 2-44. Thalidomide images (Computer drawing by Ilya Yanov, Jackson, Mississippi). Figure 2-44. Thalidomide images (Computer drawing by Ilya Yanov, Jackson, Mississippi).
Figure 6-5. Three-dimensional computer drawings of the total wave function, 4/, of the iodine atom, calculated with a 3-21G basis set [19], They show the values of P in a cross section. Courtesy of Istvan Kolossvary. (a) Is- orbital (b) 2px orbital (c) 3dxy orbital. Figure 6-5. Three-dimensional computer drawings of the total wave function, 4/, of the iodine atom, calculated with a 3-21G basis set [19], They show the values of P in a cross section. Courtesy of Istvan Kolossvary. (a) Is- orbital (b) 2px orbital (c) 3dxy orbital.
Figure 6-19. Contour diagrams of the molecular orbitals of water. Computer drawing by Zoltan Varga with Gaussview [24],... Figure 6-19. Contour diagrams of the molecular orbitals of water. Computer drawing by Zoltan Varga with Gaussview [24],...
Figure 8-15. (a) Linus Pauling s sketch of the polypeptide chain in 1948. The alpha-helix came together eventually when he folded the paper along the creases [16] (b) Computer-drawing of the alpha-helix (courtesy of Ilya Yanov, Jackson, Mississippi). [Pg.387]

The authors kindly thank Dipl.-Chem. M. Frank, R. Friedrich, R. Guther, D. Karbach, A. Schroder, and C. Seel for computer drawings. J. D. thanks the Fonds der Chemischen Industrie for a doctoral scholarship. [Pg.105]

I thank Drs. S.M. Valles, E. McCord, Jr., M.E. Scharf, L.T. Ou, and three anonymous reviewers for reviewing the manuscript and providing much helpful advice. I thank Susan Duser, Mike Sanford, and Sam Nguyen who made many excellent computer drawings and figures. Thanks are due also to my editor, John Sulzycki, and project coordinator, Patricia Roberson, at Taylor Francis Group, LLC, for their valuable assistance. Finally, I thank my wife, Rachel, for her moral support, and my sons, Robert and Edmund, for their help. [Pg.286]

Keller, E. Some computer drawings of molecular and solid-state structures. 7 Appl. Cryst. 22 19-22 (1989). [Pg.450]

Figure 1 shows the overlap obtained in this case. Space filling computer drawings (8J for each molecule are shown in figures 2a and 2b they show how a remarkable mimetism is possible, which was not at all obvious from the separate 2-D chemical structures of the two compounds. [Pg.367]

This work was supported by Fundacion Antorchas (Projects No. 13887-83 and No. 13955-3), ANPCyT-PROALAR (Project No. 104), FEDER (Project 1FD97-0824) and Fundacion Playa Union. We thank R. Gonsalves for his help with computer drawings. This is Contribution No. 34 of Estacion de Fotobiologia Playa Union. [Pg.383]

Fig. 140. Computer drawing of the reconstruction of the Zebrin Purkinje cells bands in the unfolded adult C57/B6 mouse cerebellum. The drawing was from immunostained 40 fim thick coronal frozen sections. The continuity of the bands has been determined as best as possible. On the left and bottom are the scales in millimeters. The two axes have different magnifications. On the right are marked the approximate boundaries of the vermal lobules. The flocculus and paraflocculus are not illustrated. One place where the data are ambiguous is within lobule V-VI, where a large number of short bands more caudally are dramatically reduced to just three at the rostral limit. It is not clear whether the P2 + or P3 + bands extend through the anterior lobe vermis (see also Fig. 139). The reconstruction data from coronal sections were not suitable to resolve the issue, so the cerebellum has also been reconstructed from horizontal sections. The upper inset panel shows the data from such a reconstruction, equivalent to the region indicated by a rectangle on the main drawing (scale in millimeters). The preferred interpretation is that the P2+ compartment does not extend far into the anterior lobe vermis, and that the first lateral Zebrin + band in lobules I-IV is continuous with P3+ (as indicated by continuous lines in the upper inset panel and as shown in the main drawing). The alternative hypothesis, that the first lateral Zebrin + band in lobules I-IV is continuous with P2+, is shown schematically in the lower inset panel. Eisenman and Hawkes (1993). Fig. 140. Computer drawing of the reconstruction of the Zebrin Purkinje cells bands in the unfolded adult C57/B6 mouse cerebellum. The drawing was from immunostained 40 fim thick coronal frozen sections. The continuity of the bands has been determined as best as possible. On the left and bottom are the scales in millimeters. The two axes have different magnifications. On the right are marked the approximate boundaries of the vermal lobules. The flocculus and paraflocculus are not illustrated. One place where the data are ambiguous is within lobule V-VI, where a large number of short bands more caudally are dramatically reduced to just three at the rostral limit. It is not clear whether the P2 + or P3 + bands extend through the anterior lobe vermis (see also Fig. 139). The reconstruction data from coronal sections were not suitable to resolve the issue, so the cerebellum has also been reconstructed from horizontal sections. The upper inset panel shows the data from such a reconstruction, equivalent to the region indicated by a rectangle on the main drawing (scale in millimeters). The preferred interpretation is that the P2+ compartment does not extend far into the anterior lobe vermis, and that the first lateral Zebrin + band in lobules I-IV is continuous with P3+ (as indicated by continuous lines in the upper inset panel and as shown in the main drawing). The alternative hypothesis, that the first lateral Zebrin + band in lobules I-IV is continuous with P2+, is shown schematically in the lower inset panel. Eisenman and Hawkes (1993).
A transparency containing the channel design produced from a computer drawing is used as a photomask to produce a positive pattern of the channels in photoresist on a silicon wafer. [Pg.69]

Use a 3D computer drawing program such as Chem 3D to draw each molecule in 3D form, from the indicated perspective (see example below). [Pg.64]

As your humans, represented by a dot on the screen, move about, why not have the computer draw a line so you can see the trail your humans leave By doing this, you will gradually be drawing a crinkly line that soon meanders all over Africa. Whenever it hits the edge of a continent, simply reflect the line back (rather than have it wander off into an ocean). [Pg.38]

Pentagonal Snowflake. Computer drawing, courtesy of Robert H. Mackay,... [Pg.450]

Pakowski Z., 1986, Computer drawing of enthalpy-humidity charts. Hung. J. Ind. Chem., 14, 225. [Pg.75]

Also known as feature-based solid modeling, parametric modeling is a 3-D computer drawing program. [Pg.159]

See other pages where Computer drawing is mentioned: [Pg.252]    [Pg.700]    [Pg.422]    [Pg.210]    [Pg.270]    [Pg.232]    [Pg.246]    [Pg.381]    [Pg.388]    [Pg.58]    [Pg.77]    [Pg.1]    [Pg.111]    [Pg.120]    [Pg.75]    [Pg.12]    [Pg.38]    [Pg.235]    [Pg.448]    [Pg.602]    [Pg.24]    [Pg.157]    [Pg.98]    [Pg.166]    [Pg.196]    [Pg.159]   
See also in sourсe #XX -- [ Pg.166 ]



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