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On Wednesday evening, Otto s was as deserted as an atoll. The bartender talked to a patron about copyrighting photographs. [Pg.139]

Instantaneous schlieren photographs of turbulent Bunsen burner flames at P = 0.1 MPa (left) and P = l.OMPa (right). The flow at U = 2.0m/s is made turbulent, thanks to a perforated plate with hole diameter d = 2.0mm. The burner exit diameter is 20mm. (Reprinted from Frank, J.H., Kalt, P.A., and Bilger, R.W., Combust. Flame, 116, 220, 1999. With permission. Figure 9, p. 238, copyright Elsevier editions.)... [Pg.149]

From the Rex Research page, with the photographs omitted. Copyright Roger Caro. Editions R. Caro. A Crow s Head Publication... [Pg.173]

Figure 3.18 A typical photograph defining the bubble boundary layer (pi - 500 psia, Vi - 1 ft/sec. 7 a, - 7] = 200°F, q/A = 0.804 x 10f) Btu/hr ft2). (From Jiji and Clark, 1964. Copyright 1964 by American Society of Mechanical Engineers, New York. Reprinted with permission.)... Figure 3.18 A typical photograph defining the bubble boundary layer (pi - 500 psia, Vi - 1 ft/sec. 7 a, - 7] = 200°F, q/A = 0.804 x 10f) Btu/hr ft2). (From Jiji and Clark, 1964. Copyright 1964 by American Society of Mechanical Engineers, New York. Reprinted with permission.)...
Figure 5.2 Photographs of boiling water flow patterns. (From Hosier, 1965. Copyright 1965 by American Institute of Chemical Engineers, New York. Reprinted with permission.)... Figure 5.2 Photographs of boiling water flow patterns. (From Hosier, 1965. Copyright 1965 by American Institute of Chemical Engineers, New York. Reprinted with permission.)...
FIGURE 15.10 Photographs of vials containing 0.5 mg mL 1 of SWCNT (a) and MWCNT (b) in different solutions phosphate buffer (0.05M, pH 7.4) (i), 98% ethanol (ii), 10% ethanol in phosphate buffer (iii), 0.1% Nation in phosphate buffer (iv), 0.5% Nation in phosphate buffer (v), and 5% Nation in ethanol (vi). Also shown (c) is a TEM image of a 0.5% Nation solution containing 0.3 mg mL-1 of MWCNT. (Reprinted with permission from [64]. Copyright (2003) American Chemical Society.)... [Pg.496]

FIGURE 15.11 Photographs of vials containing I mg ml 1 CNT dispersed in water (a) and in 0.1% CTAB solution by ultrasonication (b). Photograph (a) was taken 0.5h after CNT dispersed in water, photograph (b) taken 1 week after CNT dispersed in CTAB solution. (Reprinted with permission from [72]. Copyright (2004) Elsevier.)... [Pg.497]

Figure 5.8. A SEM photograph of a fabricated LTPS TFT made using an inkjetted silicon film. [Reproduced with permission from Ref. 10. Copyright 2006 Nature Publishing Group.]... [Pg.141]

Figure 7.4 Simplified macroscopic model for cholesteric (a) lateral and (b) top view of left-handed superhehx (photographs display a half-pitch length) composed of left-handed helical screws with pitch-to-diameter ratio much smaller than Jt. (Reprinted with permission of John Wiley Sons from Circular Dichroism—Principles and Applications, 2nd ed., N. Berova, K. Nakanishi, R. W. Woody, Eds., Copyright 2000.)... Figure 7.4 Simplified macroscopic model for cholesteric (a) lateral and (b) top view of left-handed superhehx (photographs display a half-pitch length) composed of left-handed helical screws with pitch-to-diameter ratio much smaller than Jt. (Reprinted with permission of John Wiley Sons from Circular Dichroism—Principles and Applications, 2nd ed., N. Berova, K. Nakanishi, R. W. Woody, Eds., Copyright 2000.)...
Fig. 23. This photograph shows a two-phase system consisting of (top phase) toluene and (bottom phase) perfluoro-2-butyltetrahydrofuran (Fluoroinert FC-75).The dark color (brown) in the bottom phase indicates that the dendrimer-encapsulated Pd nanoparticles, complexed with poly (hexafluoropropylene oxide-co-difluoromethylene oxide) monocarboxylic acid, are selectively extracted into the fluorous phase. No detectable color was observed in the organic phase. Reprinted with permission from Ref. 103 Copyright 2000 American Chemical Society... Fig. 23. This photograph shows a two-phase system consisting of (top phase) toluene and (bottom phase) perfluoro-2-butyltetrahydrofuran (Fluoroinert FC-75).The dark color (brown) in the bottom phase indicates that the dendrimer-encapsulated Pd nanoparticles, complexed with poly (hexafluoropropylene oxide-co-difluoromethylene oxide) monocarboxylic acid, are selectively extracted into the fluorous phase. No detectable color was observed in the organic phase. Reprinted with permission from Ref. 103 Copyright 2000 American Chemical Society...
Figure 23. Photographs of cell anodes containing Cu and Ni alloys of varying composition after exposure to dry CH4 at 1073 K for 1.5 h. (Reprinted with permission from ref 163. Copyright 2002 The Electrochemical Society, Inc.)... Figure 23. Photographs of cell anodes containing Cu and Ni alloys of varying composition after exposure to dry CH4 at 1073 K for 1.5 h. (Reprinted with permission from ref 163. Copyright 2002 The Electrochemical Society, Inc.)...
Fig. 10.3 Photographs of a homogenous, saturated sand pack with seven dye tracer point injections being transported, under a constant flow of 53 mL/min, from left to right times at (a) t=20, (b) t= 105, (c) t= 172, (d) t=255 min after injection. Internal dimensions of the flow cell are 86 cm (length), 45cm (height), and 10cm (width). Reprinted from Levy M, Berkowitz B (2003) Measurement and analysis of non-Fickian dispersion in heterogeneous porous media. J Contam Hydrol 64 203-226. Copyright 2003 with permission of Elsevier... Fig. 10.3 Photographs of a homogenous, saturated sand pack with seven dye tracer point injections being transported, under a constant flow of 53 mL/min, from left to right times at (a) t=20, (b) t= 105, (c) t= 172, (d) t=255 min after injection. Internal dimensions of the flow cell are 86 cm (length), 45cm (height), and 10cm (width). Reprinted from Levy M, Berkowitz B (2003) Measurement and analysis of non-Fickian dispersion in heterogeneous porous media. J Contam Hydrol 64 203-226. Copyright 2003 with permission of Elsevier...
Figure 12.4 Colorimetric detection of influenza virus using polymerized liposomes containing sialic acid, (a) Photograph of liposomes to which have been added increasing amounts (from left to right) of influenza virus. Liposomes were 1 and 95% 5. To each well was added the following amounts of influenza virus (left to right) 0, 8, 16, and 32 hemagglutinin units (HAU). Reprinted from Charych et al. (1996). Copyright 1996 Elsevier Science. (See color insert.)... Figure 12.4 Colorimetric detection of influenza virus using polymerized liposomes containing sialic acid, (a) Photograph of liposomes to which have been added increasing amounts (from left to right) of influenza virus. Liposomes were 1 and 95% 5. To each well was added the following amounts of influenza virus (left to right) 0, 8, 16, and 32 hemagglutinin units (HAU). Reprinted from Charych et al. (1996). Copyright 1996 Elsevier Science. (See color insert.)...
Figure 12.7 Photographs of electrospun fiber mats embedded with 1 (a) before and (b) after 254-nm UV irradiation (1 mW/cm ) for 3 min. (c) Scanning electron microscopy image of the microfibers containing polymerized 1. (c) Photographs of the polydiacetylene-embedded electrospun fiber mats prepared with various diacetylene monomers after exposure to organic solvent. Reprinted fi om Yoon et al. (2007). Copyright 2007 American Chemical Society. (See color insert.)... Figure 12.7 Photographs of electrospun fiber mats embedded with 1 (a) before and (b) after 254-nm UV irradiation (1 mW/cm ) for 3 min. (c) Scanning electron microscopy image of the microfibers containing polymerized 1. (c) Photographs of the polydiacetylene-embedded electrospun fiber mats prepared with various diacetylene monomers after exposure to organic solvent. Reprinted fi om Yoon et al. (2007). Copyright 2007 American Chemical Society. (See color insert.)...
Figure 12.16 Photographs of solutions of (a) polymer 12, (b) 12 + single-stranded DNA, and (c) 12 + double-stranded DNA. (d) Schematic description of the formation of pol)dhio-phene/single-stranded nucleic acid duplex and polythiophene/hybridized nucleic acid triplex forms. Reprinted from Ho et al. (2002). Copyright 2002 Wiley-VCH Verlag GmbH and Co. KGaA. Figure 12.16 Photographs of solutions of (a) polymer 12, (b) 12 + single-stranded DNA, and (c) 12 + double-stranded DNA. (d) Schematic description of the formation of pol)dhio-phene/single-stranded nucleic acid duplex and polythiophene/hybridized nucleic acid triplex forms. Reprinted from Ho et al. (2002). Copyright 2002 Wiley-VCH Verlag GmbH and Co. KGaA.
Fig. 2. Recirculating, rack-type zebrafish system. A system made by Aquaneering, Inc., that provides multi-phase filtration, including a biological filter, and the ability to use tanks ot various sizes on the same system. The light-tight boxes shown on two rows ot the system here are an optional feature that allows for independent control of the light cycle tor each ot the enclosed rows. (Photograph and copyright permission kindly provided by Aquaneering, Inc.). Fig. 2. Recirculating, rack-type zebrafish system. A system made by Aquaneering, Inc., that provides multi-phase filtration, including a biological filter, and the ability to use tanks ot various sizes on the same system. The light-tight boxes shown on two rows ot the system here are an optional feature that allows for independent control of the light cycle tor each ot the enclosed rows. (Photograph and copyright permission kindly provided by Aquaneering, Inc.).
S)-ibuprofen by means of ionic liquid flow within a microfluidic device. (B, Bottom) Photographs of the three-phase flow in the microchannel (a) center near the inlets of the microchannel, (b and c) arc of the microchannel, and (d) center near the outlets of the microchannel. Flow rates of the aqueous phase and the ionic liquid flow phase in (a-d) were 1.5 and 0.3 mL/h, respectively. (Reprinted from Huh, Y.S., Jun, Y.S., Hong, Y.K., Hong, W.H., and Kim, D.H., /. Mol. Catal. B, 43, 96-101, 2006. Copyright 2006 Elsevier. With permission.)... [Pg.131]

Jacket design by Hae Jung Ham Jacket photograph copyright by Comstock, Inc. [Pg.313]

Fig. 3 Top Photograph of silicon cantilevers used as depositing tool during deposition on a glass slide [53], Bottom Fluorescence microscope images of microdot matrices of the nonimprinted control polymer (left), positive control with the copolymerized template (middle), and imprinted polymer (right) synthesized with DMSO-diglyme-1% PVAc as the porogen (a) directly after deposition, (b) after washing and elution of the template, and (c) after reincubation in a solution of 30 pM fluorescein. Reprinted with permission from [53], Copyright (2007) American Chemical Society... Fig. 3 Top Photograph of silicon cantilevers used as depositing tool during deposition on a glass slide [53], Bottom Fluorescence microscope images of microdot matrices of the nonimprinted control polymer (left), positive control with the copolymerized template (middle), and imprinted polymer (right) synthesized with DMSO-diglyme-1% PVAc as the porogen (a) directly after deposition, (b) after washing and elution of the template, and (c) after reincubation in a solution of 30 pM fluorescein. Reprinted with permission from [53], Copyright (2007) American Chemical Society...
Fig. 10 (a, b) Schematic mechanism demonstrated for a reflective color M-paper with magnetically controllable characteristics, (c, d) The intensity of magnetic field dependence on the reflection spectra of chiral nematic mixtures doped with magnetite nanoparticles that are surface modified with oleic acid and a chiral pyridine-based dopant, as well as photographs of both formulations before and after a magnetic field of 1,000 GS was applied (see photograph insets above) [364], (Copyright 2010, Taylor Francis)... [Pg.359]

FIG. 14-20 Distillation flow regimes schematics and photos, (a) Froth, (b) Emulsion, (c) Spray. [Schematics from H. Z. Kister, Distillation Design, copyright 1992 by McGraw-Hill, Inc. reprinted by permission. Photographs courtesy of Fractionation Research Inc. (FRI).]... [Pg.30]

Figure 8.2.2 (a) Schematic of the four-coil probehead introduced in Reference [12]. The four individual solenoidal coils are represented by an inductance (L), series resistance (R), and inter-turn capacitance (Q. The entire circuit was impedance-matched to 50 it at a frequency of 300 MHz by using the variable capacitors Ct and Cm. (b) Photograph of the four-coil assembly. Reprinted from MacNamara, E., Hou. T., Fisher, G., Wilhams, S. and Raftery, D., Multiplex Sample NMR an approach to high-throughput NMR using a parallel coil probe , Anal. Chem. Acta, 397, 9-16, copyright (1999), with permission of Elsevier Science... [Pg.262]

Figure 4. Photographs of bubble profiles superimposed on a voltammogram showing change in contact angle with electrode potential of copper in the presence of 2 X 103 M potassium diethyldithiophosphate as flotation collector. Conditions sweep rate, 50 mV Is pH 9.3 (0.25 M sodium borate). (Reproduced, with permission, from Ref. 1. Copyright 1975, Universita Degli Studi.)... Figure 4. Photographs of bubble profiles superimposed on a voltammogram showing change in contact angle with electrode potential of copper in the presence of 2 X 103 M potassium diethyldithiophosphate as flotation collector. Conditions sweep rate, 50 mV Is pH 9.3 (0.25 M sodium borate). (Reproduced, with permission, from Ref. 1. Copyright 1975, Universita Degli Studi.)...
Fig. 6 (a) Schematic and (b) photograph of the quasi in situ SFM setup. Adapted with permission from Soft Matter [9]. Copyright 2006 Royal Society of Chemistry... [Pg.11]

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See also in sourсe #XX -- [ Pg.81 , Pg.361 , Pg.366 ]



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