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Diagram of forces

Fig. 1. Diagram of forces determining shape of a drop of Hquid placed on a soHd surface. See text. Fig. 1. Diagram of forces determining shape of a drop of Hquid placed on a soHd surface. See text.
Fig. 7. Schematic diagram of forces exerted on a cell when using an inverted microscope with (A) epi-illumination (i.e., laser focused through the objective) or (B) transillumination (i.e., laser focused through the condenser). is the axial force, and Fl is the lateral trapping force. Curved arrows represent the laser beam waist and point in the direction of light propagation. Fig. 7. Schematic diagram of forces exerted on a cell when using an inverted microscope with (A) epi-illumination (i.e., laser focused through the objective) or (B) transillumination (i.e., laser focused through the condenser). is the axial force, and Fl is the lateral trapping force. Curved arrows represent the laser beam waist and point in the direction of light propagation.
Fig. 22.7 Schematic diagram of forced autoionization. Above the ionization limit the autoionizing state A, converging to a higher limit, is manifested as an autoionization resonance. Below the limit, in zero field the interaction of the perturber P with the Rydberg series results in the perturbation of the Rydberg series. Applying an electric field E depresses the ionization limit below P, and it appears as a forced autoionization resonance. Fig. 22.7 Schematic diagram of forced autoionization. Above the ionization limit the autoionizing state A, converging to a higher limit, is manifested as an autoionization resonance. Below the limit, in zero field the interaction of the perturber P with the Rydberg series results in the perturbation of the Rydberg series. Applying an electric field E depresses the ionization limit below P, and it appears as a forced autoionization resonance.
Figure 1. Schematic diagram of forces acting on a particle in a flowing fluid as it approaches a stationary sphere. The moving particle is sufficiently large (viz., diameter larger than 1 im) that Brownian motion is negligible. Figure 1. Schematic diagram of forces acting on a particle in a flowing fluid as it approaches a stationary sphere. The moving particle is sufficiently large (viz., diameter larger than 1 im) that Brownian motion is negligible.
Fig. 5. Schematic diagram of force-field refinement program. Fig. 5. Schematic diagram of force-field refinement program.
Fig. 3.8 Diagram of force against time curves that may be obtained during the compression strength test of spherical agglomerates... Fig. 3.8 Diagram of force against time curves that may be obtained during the compression strength test of spherical agglomerates...
Figure 11.12 Component of loads acting on one laminate in the single-lap joint in the loading ( c) direction, (a) Free body diagram of force components in loading direction, (h) loads from finite element model using stick-slip friction model. Figure 11.12 Component of loads acting on one laminate in the single-lap joint in the loading ( c) direction, (a) Free body diagram of force components in loading direction, (h) loads from finite element model using stick-slip friction model.
FIGURE 3 (a) Force propagation during pullout process (b) Free body diagram of forces. [Pg.122]

Figure 4. Diagram of force F against the shear defoimation v (left) of a classical tensile-shear test which is used to characterize an adhesive layer connecting two beech members (right). Figure 4. Diagram of force F against the shear defoimation v (left) of a classical tensile-shear test which is used to characterize an adhesive layer connecting two beech members (right).
Surface Tension, Capillarity, and Contact Angle, Fig. 4 Free body diagram of forces on a droplet cut in half... [Pg.3139]

Fig. 15.25. Farinograph (according to Rohrlich and Thomas, 1967). The apparatus consists of a ther-mostated mixer or kneader (1), its blades are driven by an electromotor (2). The reaction torque acts through a lever system (4) of analytical balance precision on the indicator scale (5) simultaneously recorded on a strip chart recorder (6). The movement of the lever system is damped by an oil dash pot (3). The farinogram is a diagram of force versus time... Fig. 15.25. Farinograph (according to Rohrlich and Thomas, 1967). The apparatus consists of a ther-mostated mixer or kneader (1), its blades are driven by an electromotor (2). The reaction torque acts through a lever system (4) of analytical balance precision on the indicator scale (5) simultaneously recorded on a strip chart recorder (6). The movement of the lever system is damped by an oil dash pot (3). The farinogram is a diagram of force versus time...
Marenduzzo, D., Trovato, A., Maritan, A. (2001b). Phase diagram of force-induced DNA vmzipping in exactly solvable models. Physical ReviewE, 64, 031901. [Pg.258]

Fig. 19 Free body diagram of forced vibration of a gravity retaining wall retaining saturated backfill soil... Fig. 19 Free body diagram of forced vibration of a gravity retaining wall retaining saturated backfill soil...
See other pages where Diagram of forces is mentioned: [Pg.357]    [Pg.97]    [Pg.88]    [Pg.347]    [Pg.316]    [Pg.88]    [Pg.322]    [Pg.1293]    [Pg.913]    [Pg.196]    [Pg.198]    [Pg.65]    [Pg.125]    [Pg.1423]    [Pg.107]   
See also in sourсe #XX -- [ Pg.347 ]



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