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Growth rate normal

One can now immediately deduce the normal growth rate of a crystal due to the screw dislocation. Whenever a step edge passes by a fixed point on the crystal surface, this point gains the height of a lattice unit. The normal growth rate V of the crystal is then... [Pg.874]

Fig. 3 Ising model calculations of the normalized growth rate as a function of the driving force. The surface temperatures are 0.40T , closed circles, 0.54 T/j, open circles, and 1.08 T/j, squares. Fig. 3 Ising model calculations of the normalized growth rate as a function of the driving force. The surface temperatures are 0.40T , closed circles, 0.54 T/j, open circles, and 1.08 T/j, squares.
Fig. 7 a. Normalized growth rate of the sporangiophore at constant light intensity I0 =... [Pg.87]

Reproduction normal growth rate of kits normal... [Pg.414]

Figure 29.9 Normalized growth rate vs. convective Mach number for natural and excited shear layers 1 — [8] 2 — [9] 3 — [19] 4 — [18] 5 [20] 6 — present facility (natural) and 7 — excited with cavity acoustics... Figure 29.9 Normalized growth rate vs. convective Mach number for natural and excited shear layers 1 — [8] 2 — [9] 3 — [19] 4 — [18] 5 [20] 6 — present facility (natural) and 7 — excited with cavity acoustics...
Curie s concept [7], which considered that the normal growth rates of crystal faces are proportional to the surface free energies and... [Pg.66]

Figure 4.7. Growth forms. The normal growth rates R of a faces increase at, whereas those of the b faces remain unchanged. Figure 4.7. Growth forms. The normal growth rates R of a faces increase at, whereas those of the b faces remain unchanged.
It should be noted that there may be other possible factors affecting the normal growth rate of crystal faces. [Pg.70]

Tracht change differs from change in Habitus in that it describes a change in the form of a crystal grown in an isotropic environmental phase through the combination of different faces and the relative sizes of respective faces. Therefore, Trachts are forms determined by the relative ratio of the normal growth rate R of the different crystal faces present on the surface of a growing crystal. The... [Pg.76]

These three features correspond to the two-dimensional morphology of a crystal, and are directly related to the problems of the three-dimensional morphology of polyhedral crystals. Habitus and Tracht. This is because the normal growth rate R which determines Habitus and Tracht is related in the following way to the height of a step, h, the advancing rate of the step, v, and the step separation, A. ... [Pg.94]

Figure 5.4. Relationship between normal growth rate R of a crystal lace and the step height h, the advancing rate v, and the step separation A, of a growth spiral. Figure 5.4. Relationship between normal growth rate R of a crystal lace and the step height h, the advancing rate v, and the step separation A, of a growth spiral.
Figure 10.4. Growth rates of crystal faces in synthetic quartz [l]-[3] = normal growth rate of crystal faces = growth rate in weight A = reference data. Figure 10.4. Growth rates of crystal faces in synthetic quartz [l]-[3] = normal growth rate of crystal faces = growth rate in weight A = reference data.
Fig. 17.3 Temperature and flow-rate dependence of silicon thin-film growth for a silane CVD process. The left-hand panel shows the temperature dependence for a fixed inlet flow rate. The right-hand panel shows normalized growth rate as a function of inlet velocity for three different surface temperatures. The actual growth rate at U = 10 cm/s is stated parenthetically under the temperature call out. Fig. 17.3 Temperature and flow-rate dependence of silicon thin-film growth for a silane CVD process. The left-hand panel shows the temperature dependence for a fixed inlet flow rate. The right-hand panel shows normalized growth rate as a function of inlet velocity for three different surface temperatures. The actual growth rate at U = 10 cm/s is stated parenthetically under the temperature call out.
Normalize the calculated growth rates at each temperature by the growth rate at 500 rpm. Plot the three sets of normalized growth rates versus spin rate, to illustrate the different trends observed for the three disk temperatures examined. [Pg.732]

Mutants of E. coli have been isolated that are essentially devoid of glutathione owing to the loss of one or the other of the two synthases. Such cells have normal growth rates, but they are more sensitive to such sulfhydryl reagents as mercurials. [Pg.526]

This same reversible response is also exhibited by growing pollen tubes taken from ozone-sensitive varieties of tobacco and petunias. If the ozone dose is low enough, i.e., high level but short exposure, tube elongation ceases momentarily and the tip of the tube narrows. After this growth resumes, and within minutes the normal growth rate is resumed and the tube recovers its normal diameter (45). [Pg.38]

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See also in sourсe #XX -- [ Pg.13 , Pg.64 , Pg.68 , Pg.76 , Pg.77 ]



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