Figure 17 definition

Figure 17. A complex display constructed using object boxes By default, object boxes are the same size as the screen. However, you can set them to a different size using the Size command. If you do this, note that relative positions and sizes for objects contained in that object box are computed with respect to the size of the object box, not the size of the screen. This is illustrated in Figure 18. To create this display, first a complex geometric figure was created using an object box: RectangleObject rectangle Size 80% 80% Filled Color blue EllipseObject ellipse Size 50% 50% Filled Color black RectangleObject rectangle2 Size 30% 30% Filled Color green ObjectBox objectbox AddObject rectangle AddObject ellipse AddObject rectangle2 topleft topleft AddObject rectangle2 topright topright AddObject rectangle2 bottomleft bottomleft AddObject rectangle2 bottomright bottomright ObjectBox objectbox1 Size 15% 15% AddObject objectbox ObjectBox objectbox2 Size 22% 22% AddObject objectbox ObjectBox objectbox3 Size 30% 30% AddObject objectbox This effectively causes the geometric figure to be scaled to 15%, 22%, and 30% of its full size. These three object boxes are then added to a display event: DefinePosition upper 50% 20% DefinePosition middle 50% 42% DefinePosition lower 50% 72% DisplayEvent display AddObject objectbox1 upper AddObject objectbox2 middle AddObject objectbox3 lower

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Figure 17. On the left: temperature profile (zoom) of the whole assembly where the column height is 1 µm. On the right: isothermal graph of the same structure. Figure 18: Anode temperature (i.e. the temperature of the upper side of the TPV) as a function of the height of the microcolumns.

Figure 17. Analyse de sensitivité du TRI du projet : subventions publiques et fonds propres Fonds Propres 15.6% 9.9% Subvention publique Figure 18 : Analyse de sensitivité du TRI du projet : subventions publiques et taux d’intérêt Taux d'intérêt du prêt (par l'intervention de garanties) Analyse de sensitivité du TRI du projet Subvention publique

Examples of Figure 17 in a sentence

Figure 17 1/ Only applicable to steering wedges over 60 mm thick.
The axes of the directions of movement are defined as in Figure 17 (or as described above).
After the experimenter has logged in to his jFed client a new experiment can be created by clicking the “New”-button (Figure 17: jFed - New Experiment).
For soil excavation that occurs within these areas, the soil screening procedures shown on Figure 16 (locations within the MEW allocation area AR- I) and Figure 17 (locations within the Navy allocation area AR-2) will be used.
The following dialog asks you to open an existing project or to create a new project (see Figure 17).
The top of Figure 1.7 depicts a simplified model of these sites wherein each ABS is shown to consist of the so- termed ▇▇▇▇▇▇ A, ▇▇▇▇▇▇ B, and Histidine regions from one NBD, and the ABC Signature and D loops from the other NBD.
A sequence alignment of these motifs demonstrates major points of divergence in ABCCs as compared to P-glycoprotein, an ABCB subfamily member (ABCB1) with homodimeric ABS1 ABS2 ▇▇▇▇ ▇▇▇▇ Signature His Region D loop ▇▇▇▇▇▇ ▇ ▇▇▇▇▇▇ A Figure 1.7: Schematic (top) and homology model (below)(▇▇▇▇▇▇▇ et al., 2015) of the CFTR NBD dimer with regions of NBDs that comprise ATP binding sites (ABS 1 and 2) highlighted.
Figure 17 shows a high-level example ecosystem for streaming content to end users from multiple stakeholders.
In turn, Figure 17 from the World Business Council for Sustainable Development (WBCSD) shows, the clinker production from 1990 to 2016 for each type of kilns described21.‌‌‌ While the most used kiln is the Cyclone, there is also another type of kiln that has not been shown in the table since it is less and less widespread because it has a production of only 300 tonnes/day and is defined vertical kiln or shaft kiln.
As shown in Figure 17 to Figure 20, frequent and infrequent users of all non-private vehicle- related modes (transit, taxi, ridesourcing, and car sharing) revealed similar patterns.

More Definitions of Figure 17

Figure 17. The “Matryoshka-like” structure of modules, units and learning outcomes in ECVET-compliant curricula.

Figure 17. Interpreted section of sub-bottom profile 423 (See Figure 8 for line location). The image shows the east end of the sub-bottom profile towards the right. Changes in depositional environments and unconformities are labeled and delineated. See text for detailed descriptions. Depth is reported in meters below sea surface with an assumed sound velocity of 1524 m s-1.

Figure 17. Second design of the propulsion and steering module.