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Pressure saturation vector

At this point in the problem, we are interested in the ratio of heat transfer to area. To do this, we calculate the temperatures of saturated steam at our pressure guess vector values via linear interpolation of the steam table data and calculate a vector of fluxes... [Pg.184]

It is evident that the modality-specific response extends beyond the classically defined topographic map as revealed by simple indentation stimuli. As shown in O Figure 1 -9b, an indentation stimulus (which activates all three receptors types) to digit D2 produces a fairly focal activation in both Area 3b and Area 1 (outline in red in O Figure l-9c. In response to pressure, flutter, and vibration stimulation, the vector summation map reveals that the strongest responses (most saturated red, green, and blue regions)... [Pg.10]

Figure 23. Fc sorption on synthetic single quartz epi quality surfaces. GI-EXAFS Fourier transform functions. Bottom two functions show effect of sorption from silica-saturated solution, hor 90 refers to electric vector in the plane of the quartz surface at right angles to the mirror plane, vert is e-vector perpendicular to the surface. Middle two functions contrast analogous experiment done without silica saturation. Top two functions show the effect of diying (i.e., ex situ experiment) on the unsaturated sorption sample. The diy and washed ex situ sample has been cleaned with a high pressure jet of DI water to remove surface precipitates. It s function is consistent with soibed complexes with little precipitate signature. Figure 23. Fc sorption on synthetic single quartz epi quality surfaces. GI-EXAFS Fourier transform functions. Bottom two functions show effect of sorption from silica-saturated solution, hor 90 refers to electric vector in the plane of the quartz surface at right angles to the mirror plane, vert is e-vector perpendicular to the surface. Middle two functions contrast analogous experiment done without silica saturation. Top two functions show the effect of diying (i.e., ex situ experiment) on the unsaturated sorption sample. The diy and washed ex situ sample has been cleaned with a high pressure jet of DI water to remove surface precipitates. It s function is consistent with soibed complexes with little precipitate signature.
When the downstream dam site is considered, the retained reservoir level will be 2475 a.s.l. The specified phreatic surface in this model was selected to be the same level of water damming. The colluvium and heavily weathered bedrock were considered to be permeable while the bedrock was assumed to be impermeable. The shear strength parameters of the saturated deposit are selected as 0.7 times of the dry condition referring to the research of Liu (2009). The hydrostatic pressure on the slope was also considered. Figure 9 shows the pore pressure of the colluvium and the phreatic line can be obtained from the result. Figure 10 illustrates the displacement contour and vectors after 1000 iteration steps. Figure 11 shows the cross sectional map of the displacement in Y direction after partial saturation. It can be concluded that, unlike the seismic condition, the... [Pg.302]

Figure 12.2 Vector forces controlling the contact angle of a liquid drop on a smooth, homogeneous, planar, rigid surface. The quantity n, relates to an adsorbed film pressure caused by the saturated vapor. Figure 12.2 Vector forces controlling the contact angle of a liquid drop on a smooth, homogeneous, planar, rigid surface. The quantity n, relates to an adsorbed film pressure caused by the saturated vapor.
Vapor density the weight of a vapor or gas compared to the weight of an equal volume of dry air Vapor pressure the pressure exerted by a saturated vapor above its own liquid in a closed container Vector organism that carries disease, such as insects or rodents Vesicant agent an agent that acts on the eyes and lungs and blisters the skin Viscosity the property of a liquid that causes it to resist flow or movement in response to external force applied to it... [Pg.323]

In the above, /(r) = (c/87r) o( ) the intensity of the laser beam at the point r Is = cl4n) h yld) is the saturation intensity d=d- e is the projection of the dipole moment matrix element of the polarization vector e of the laser beam A is the detuning of the laser field frequency cu with respect to the atomic transition frequency tuo, that is, A = lo — loo, and the quantity 27 defines the rate of spontaneous decay of the atom from the upper level e) to the lower level g), that is, the Einstein coefficient A. Figure 5.6 shows the dependence of the radiation pressure force and the gradient force on the projection v =v of the atomic velocity on the propagation direction of a Gaussian laser beam for the case of strong saturation of the D-line of Na. [Pg.74]


See other pages where Pressure saturation vector is mentioned: [Pg.372]    [Pg.393]    [Pg.2457]    [Pg.235]    [Pg.173]    [Pg.235]    [Pg.1584]    [Pg.92]    [Pg.343]    [Pg.156]    [Pg.202]    [Pg.194]    [Pg.2457]    [Pg.19]    [Pg.600]    [Pg.335]    [Pg.488]    [Pg.269]    [Pg.237]    [Pg.214]    [Pg.250]    [Pg.278]    [Pg.119]    [Pg.48]    [Pg.268]   
See also in sourсe #XX -- [ Pg.391 ]

See also in sourсe #XX -- [ Pg.391 ]




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Saturation pressure

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