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If the first part mentions the product name then this is the most prominent display of the brand name and the non-proprietary name of the medicine or a list of the active ingredients using approved names where such exist must appear immediately adjacent to the most prominent display of the brand name. The size must be such that the information is easily readable. If the product is one that is required to show an inverted black triangle on its promotional material then the black triangle symbol should also appear adjacent to the product name. That is not, however, a requirement of the code (see supplementary information to Clause 4.3). The requirement of Clause 10 that promotional material and activities should not be disguised should also be borne in mind. [Pg.738]

The black triangle symbol (T) is used within the British National Formulary to indicate drugs or certain preparations of drugs that are under closer monitoring by the Medicines and Healthcare products Regulatory Agency (MHRA). These may be, for example, a newly licensed medicine or an established medicine being used for a new condition or administered via a new route. [Pg.59]

Fig. 7.45 Experimental corrected (<2dscvc/A ) — E curves (symbols) and (7cv /v) — E ones (idashed lines) corresponding to the disodium salt of the 2,6-Anthraquinonedisulfonic acid (AQDS) 1.0 pM + HC104 0.5 M adsorpted on a mercury electrode. The sweep rate in both techniques is v = 1.0 V s 1. The values of AE (in mV) of the DSCVC curves are 1 (dark gray diamonds), 3 (white circles), 5 (gray squares), and 10 (black triangles). The initial potential in both DSCVC and CV technique was E iai = — 150mV. rs = 0.0316cm, and T= 296 K. A vertical dotted line indicates the value of the formal potential E = 0.062 V vs. Reference. Reproduced from [4] with permission... Fig. 7.45 Experimental corrected (<2dscvc/A ) — E curves (symbols) and (7cv /v) — E ones (idashed lines) corresponding to the disodium salt of the 2,6-Anthraquinonedisulfonic acid (AQDS) 1.0 pM + HC104 0.5 M adsorpted on a mercury electrode. The sweep rate in both techniques is v = 1.0 V s 1. The values of AE (in mV) of the DSCVC curves are 1 (dark gray diamonds), 3 (white circles), 5 (gray squares), and 10 (black triangles). The initial potential in both DSCVC and CV technique was E iai = — 150mV. rs = 0.0316cm, and T= 296 K. A vertical dotted line indicates the value of the formal potential E = 0.062 V vs. Reference. Reproduced from [4] with permission...
Figure 7.13 Change in the 3-to-2 photon ratio due to water uptake. Black boxes are the received sample data green circles are after 4 months in air. During an in-situ bake at 300 C (red upward triangles) a temperature induced increase is observed. After cooling back to room temperature the returns to the as received state (open blue downward triangles). Symbol sizes exceed the errors. Figure 7.13 Change in the 3-to-2 photon ratio due to water uptake. Black boxes are the received sample data green circles are after 4 months in air. During an in-situ bake at 300 C (red upward triangles) a temperature induced increase is observed. After cooling back to room temperature the returns to the as received state (open blue downward triangles). Symbol sizes exceed the errors.
Is a warning symbol required, e.g. black triangle for adverse events ... [Pg.9]

Fig. 6.4 A ground loop. (Some authors use other alternative symbols, not shown here, such as a black triangle to indicate the true ground.)... Fig. 6.4 A ground loop. (Some authors use other alternative symbols, not shown here, such as a black triangle to indicate the true ground.)...
Fig. 2 Stations used in measurements of aerosol number size distributions. Black symbols are EUSAAR stations, white GUAN (MPZ was in both networks). Triangles denote high-altitude mountain stations (over 1,000 m from mean sea level). Figure adapted from figure published in [18], which also has more details on the locations and types of the stations... Fig. 2 Stations used in measurements of aerosol number size distributions. Black symbols are EUSAAR stations, white GUAN (MPZ was in both networks). Triangles denote high-altitude mountain stations (over 1,000 m from mean sea level). Figure adapted from figure published in [18], which also has more details on the locations and types of the stations...
FIGURE 2.5. Normalised electroluminescence radiation patterns of die 2-D patterned device measured in die x-(filled circles) and y-directions (filled squares) are shown along with die average of die two (black line, no symbols). The radiation pattern of an unpattemed device is also shown (filled triangles) along with radiation pattern obtained from the lambertian emission (dashed line, no symbols). [Pg.29]

Figure 2 Schematic representation of the repetitive structure of (a) fibroin (Sehnal and Zurovec, 2004), (b) the crystalline and amorphous regions in silk, and (c) the structure of the parallel P-sheet crystals (Zhou et al., 2001). The bullnose symbols in (a) depict the nonrepetitive termini. Each pair of rectangle and triangle represents a second-order repeat unit. Each line on the symbols is the unit of third-order repeat. Crystalline regions are shown in black (Gosline et al., 1986 Heslot, 1998). Figure 2 Schematic representation of the repetitive structure of (a) fibroin (Sehnal and Zurovec, 2004), (b) the crystalline and amorphous regions in silk, and (c) the structure of the parallel P-sheet crystals (Zhou et al., 2001). The bullnose symbols in (a) depict the nonrepetitive termini. Each pair of rectangle and triangle represents a second-order repeat unit. Each line on the symbols is the unit of third-order repeat. Crystalline regions are shown in black (Gosline et al., 1986 Heslot, 1998).
Fig. 2.2. GdnHCl-induced unfolding transition curves for authentic and recombinant goat a-lactalbumin [22], The filled diamonds indicate the unfolding transition of the methionine-free recombinant protein produced by CNBr cleavage. The unfolding was carried out at 25° C in the presence of 1 mM CaCB, 50 mM NaCl, and 50 mM sodium cacodylate (pH 7.0). The transitions were monitored by CD measurements at 222 nm (circles and diamonds) and at 270 nm (triangles), and the transition curves were normalized between the native and fully unfolded baselines. The black line with symbols represents the authentic form, and the gray line with symbols represents the recombinant form. Reproduced with permission from [22]... Fig. 2.2. GdnHCl-induced unfolding transition curves for authentic and recombinant goat a-lactalbumin [22], The filled diamonds indicate the unfolding transition of the methionine-free recombinant protein produced by CNBr cleavage. The unfolding was carried out at 25° C in the presence of 1 mM CaCB, 50 mM NaCl, and 50 mM sodium cacodylate (pH 7.0). The transitions were monitored by CD measurements at 222 nm (circles and diamonds) and at 270 nm (triangles), and the transition curves were normalized between the native and fully unfolded baselines. The black line with symbols represents the authentic form, and the gray line with symbols represents the recombinant form. Reproduced with permission from [22]...
In Fig. 9 the ground forms are indicated by black symbols (in the present case inscribed in circles) rhombs for even-carbon atom formulas, triangles for odd-carbon atom formulas. Higher members of the one-isomer series are identified by circles with a white rhomb or a white triangle for the even, and odd-carbon atom formulas, respectively. [Pg.92]

Figure 30 Calculated state-resolved dissociation rates for NO2. The symbols indicate well converged (open circles) and less well converged (black dots) results. The smooth solid line indicates the quantum mechanical average (within windows of AE = 200 cm ). The points above the dashed line correspond to lifetimes shorter than the ballistic time for ejecting one of the 0 atoms. The solid stepped line is the SACM dissociation rate. The triangles represent the experimental average rates obtained by Kirmse et al. [35] and the shaded circles are the rates of Ionov et al. [34]. The hatched box a,t E = 0 shows the range of rates extracted from the energy-resolved spectroscopic experiment by Abel et al. [137]. The shaded boxes AE = 200 cm ) indicate the ranges of resonance states excited by the pump pulses with Apu — 396, 387, and 383 nm, respectively. Reprinted, with permission of the American Chemical Society, from Ref. 35. Figure 30 Calculated state-resolved dissociation rates for NO2. The symbols indicate well converged (open circles) and less well converged (black dots) results. The smooth solid line indicates the quantum mechanical average (within windows of AE = 200 cm ). The points above the dashed line correspond to lifetimes shorter than the ballistic time for ejecting one of the 0 atoms. The solid stepped line is the SACM dissociation rate. The triangles represent the experimental average rates obtained by Kirmse et al. [35] and the shaded circles are the rates of Ionov et al. [34]. The hatched box a,t E = 0 shows the range of rates extracted from the energy-resolved spectroscopic experiment by Abel et al. [137]. The shaded boxes AE = 200 cm ) indicate the ranges of resonance states excited by the pump pulses with Apu — 396, 387, and 383 nm, respectively. Reprinted, with permission of the American Chemical Society, from Ref. 35.
Fig. 12 Variation of modal temperatures of OH, initially in (v n) = (8 3) with number of collision cycles (collision number) for a 1 10 mixture of OH (8 3) in a 4 1 mixture of N2 (0 10) and 02 (0 12) at 250 K. Total number of molecules is (nominally) 8,000. Tv (squares) represents vibrational temperature, Tt (circles) rotational temperature and Tt (triangles) translational temperature throughout. For OH and N2 the symbols are black, red and green for Tv, Tt and Tt respectively and are solid for OH and open for N2. The symbols for 02 follow this same pattern but are blue for all three modal temperatures. As described in the text, the primary data are the quantum state populations. Modal temperatures are calculated assuming a Boltzmann distribution and thus Tv and Tr will not be meaningful at the outset and in the early stages of ensemble evolution... Fig. 12 Variation of modal temperatures of OH, initially in (v n) = (8 3) with number of collision cycles (collision number) for a 1 10 mixture of OH (8 3) in a 4 1 mixture of N2 (0 10) and 02 (0 12) at 250 K. Total number of molecules is (nominally) 8,000. Tv (squares) represents vibrational temperature, Tt (circles) rotational temperature and Tt (triangles) translational temperature throughout. For OH and N2 the symbols are black, red and green for Tv, Tt and Tt respectively and are solid for OH and open for N2. The symbols for 02 follow this same pattern but are blue for all three modal temperatures. As described in the text, the primary data are the quantum state populations. Modal temperatures are calculated assuming a Boltzmann distribution and thus Tv and Tr will not be meaningful at the outset and in the early stages of ensemble evolution...
Fig. 8. Mean differences (large symbols) between observed temperature and predicted temperature for live or unspecified life status, Cibicides lobatulus (black) and Ammonia beccarii (grey) using the palaeotemperature equations of O Neil et al. (1969 circle), Bemis et al. (1998 triangle) and Lynch-Stieglitz et al. (1999 square). Small symbols show individual measurements. Fig. 8. Mean differences (large symbols) between observed temperature and predicted temperature for live or unspecified life status, Cibicides lobatulus (black) and Ammonia beccarii (grey) using the palaeotemperature equations of O Neil et al. (1969 circle), Bemis et al. (1998 triangle) and Lynch-Stieglitz et al. (1999 square). Small symbols show individual measurements.
CORROSIVE placard. The word "CORROSIVE" must be across the center of the placard and made with letters 2 /i inches (52.4 mm.) high with a Ar-inch (8.7 mm.) stroke. The base of the top white triangle must be 1 4 inches (38.1 mm.) above the placard horizontal center line. The lowest part of the symbol must be 1V2 inches (41.3 mm.) above the placard horizontal center line. The height of the symbol measured from a horizontal line extended from the lowest part of the symbol must be 3 4 Inches (82.5 mm.) and the width across the widest part must be 7% inches (187.3 mm.). The upper white area must have a l4-inch (3.2 mm.) black solid line border as an extension from the edge of the black area to... [Pg.77]

Fig. 37.15 Dissolution of griseofulvin-succinic acid preparations in water at 37°C. Black symbols denote melt-products, hollow symbols plain griseofulvin or physical mixtures, respectively. Circles, solid dispersion and physical mixture, composition S (see phase diagram Fig. 37.9) triangles, eutectic solid dispersion and physical mixture, composition E squares, crystalline griseofulvin diamonds, micronized griseofulvin. Redrawn from Goldberg et... Fig. 37.15 Dissolution of griseofulvin-succinic acid preparations in water at 37°C. Black symbols denote melt-products, hollow symbols plain griseofulvin or physical mixtures, respectively. Circles, solid dispersion and physical mixture, composition S (see phase diagram Fig. 37.9) triangles, eutectic solid dispersion and physical mixture, composition E squares, crystalline griseofulvin diamonds, micronized griseofulvin. Redrawn from Goldberg et...
Fig. 12.28 Effect of laser irradiation on apparent temperature of the phytantriol + water matrix (Tapp) with change in GNR concentration. [GNR] = 0 nM are white symbols, 0.3 nM blue symbols, 1.5 nM yellow symbols, and 3 nM black symbols. Circles indicate v2 phase, triangles indicate v2 + H2, squares indicate H2 + L2, and diamonds indicate L2. The cartoon on the right indicates the type of phase structure present with increasing temperature. (Taken from [107])... Fig. 12.28 Effect of laser irradiation on apparent temperature of the phytantriol + water matrix (Tapp) with change in GNR concentration. [GNR] = 0 nM are white symbols, 0.3 nM blue symbols, 1.5 nM yellow symbols, and 3 nM black symbols. Circles indicate v2 phase, triangles indicate v2 + H2, squares indicate H2 + L2, and diamonds indicate L2. The cartoon on the right indicates the type of phase structure present with increasing temperature. (Taken from [107])...
Fig. 3.30 Resonant frequency of black squares) and (white squares) dependence on mean particles size. Symbols are experimental data, solid line represents the calculations on the base of Eq. (3.99) with parameters for too = 47.5 ppm, k = 6.5 ppm nm. Ho = 40.18 MHz for Mg coq = 26 ppm, = 10 ppm nm, Ho = 18.3 MHz. Inset size dependence of the ratio of NMR spectra integral intensity to the whole spectra. Solid line is calculation by the expression Ic/I = 1 — (1 — AR/Rq) at AR = 0.3486 nm, black and white triangles are fitting parameters and NMR spectra experimental points respectively [105]... Fig. 3.30 Resonant frequency of black squares) and (white squares) dependence on mean particles size. Symbols are experimental data, solid line represents the calculations on the base of Eq. (3.99) with parameters for too = 47.5 ppm, k = 6.5 ppm nm. Ho = 40.18 MHz for Mg coq = 26 ppm, = 10 ppm nm, Ho = 18.3 MHz. Inset size dependence of the ratio of NMR spectra integral intensity to the whole spectra. Solid line is calculation by the expression Ic/I = 1 — (1 — AR/Rq) at AR = 0.3486 nm, black and white triangles are fitting parameters and NMR spectra experimental points respectively [105]...
Small open symbols denote type I (red circle) and type II (blue square) semiconducting nanotubes. Solid symbols denote metal-1 (black circle), metal-2p (yellow triangle), and metal-2 m (green square). The appearance of the solid symbols is not periodic except for zigzag and armchair SWNTs. [Pg.110]

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