Static force

Fig. 4. Static force index (Tesla(ATesla/Adistance)) for varying particle shapes, where K is the bulk density of material in kg/m. The plate has dimensions of 6 X 76 X 76 mm the bolt has dimensions of 6 x 25 mm. The horizontal line represents the distance from the magnet face.

For the gravity discharge case, the height of the fluid at maximum vacuum, which is the point at which air would begin to backflow into the tank, is determined by Eq. (26-54). Equation (26-55) calculates the corresponding vacuum in the tank s headspace at this hquid height. Since the drain nozzle is open to the atmosphere, this solution is a static force balance that is satisfied when the sum of the internal pressure and the remaining fluid head is equal to the atmospheric pressure. 

As shown in the free-body diagram of Figure 2-15b, all the motion of the block is parallel to the surface of the ramp thus there is a static force balance in the y direction. 

FIGURE 6.9 Dependence of viscoelastic parameters on solvent quality. The (A) static force, (B) drag coefficient at 10 kHz, (C) dynamic spring constant, and (D) dispersion parameter are shown as a function of the surface-sphere distance. The results for water, propanol, and a 50/50 water/propanol mixture are given. Reprinted with permission from Benmouna and Johannsmann (2004). 

Taber, J.J. Dynamic and Static Forces Required to Remove a Discontinuous Oil Phase from Porous Media Containing Both Oil and Water, Soc. Petrol. Eng. J. 1969, 9(1), 3. 

For elastic behavior, an applied static force is half that of an applied dynamic force of infinitely long duration. 

The modified Campbell-Dontula model provides an acceptable prediction of the rate at the section exit pressure. For many cases, the coefficients of friction are adjusted until an acceptable performance is obtained. This model and the other models should always be used with caution. As previously discussed, these models use a static force balance to approximate a dynamic process. 

Here, Fg plays a similar role to that of the unknown force, in Campbell s models. Fg is resolved into forces Fj and F, and acts at an angle W to F (the flight edge). These forces are in a plane parallel to the screw root surface. The new static force balance yields ... 

Inside a rectangular well a dipole rotates freely until it suffers instantaneous collision with a wall of the well and then is reflected, while in the field models a continuously acting static force tends to decrease the deflection of a dipole from the symmetry axis of the potential. Therefore, if a dipole has a sufficiently low energy, it would start backward motion at such a point inside the well, where its kinetic energy vanishes. Irrespective of the nature of forces governing the motion of a dipole in a liquid, we may formally regard the parabolic, cosine, or cosine squared potential wells as the simplest potential profiles useful for our studies. The linear dielectric response was found for this model, for example, in VIG (p. 359) and GT (p. 249). 

A variety of interaction behaviours can be observed between liquid/liquid interfaces based on the types of colloidal forces present. In general, they can be separated into static and dynamic forces. Static forces include electrostatic, steric, van der Waals and hydrophobic forces, relevant to stable shelf life and coalescence of emulsions or dispersions. Dynamic forces arise ftom flow in the system, for instance during shear of an emulsion or dispersion. EHrect force measurements tend to center on static force measurements, and while there is a large body of work on the study of film drainage between both liquid or solid interfaces, there are very few direct force measurements in the dynamic range between liquid interfaces. Below are general descriptions of some of the types of force observed and brief discussions of their origins. 

Molecules as objects of static forces are deformed and reduce their symmetry the site symmetry approach... 

The electrc static force acting on an ion between these plates is proportional to its electrical charge (n being the number of... 

Test Ij Static Force Loss at Constant Deflection... 

Covers density, indentation-force deflection, compressionforce deflection, constant deflection, compression set, tension, tear resistance, air-flow, resilience (ball rebound), static-force loss at constant deflection, dynamic fatigue, steam autoclave aging, and dry-heat aging. 

The polyelectrolyte brush shrinks strongly on addition of electrolytes. At low or moderately low salt concentrations (cs=0.01 mol L-1) the force profiles resemble those of a soft brush. At salt concentrations of cs= 0.03 mol L, however, the profile of the static force resembles more closely that of a hard surface. Interestingly, if the behavior of the PEL brush is studied close to the collapse point significantly increased compressibility can be observed. However, the compressibilty shows no bistability, which indicates that the transition between the brush and the collapsed state is not a true first-order transition, although this would be expected from mean-field theory. One possible explanation of this behavior would be that the polydisper-sity of the surface-attached chains smoothens the transition. 

The static force balance for a skater standing on one skate is ... 

Taber, J.J., 1969. Dynamic and static forces required to remove a discontinuous oil phase from porous media containing both oil and water. SPEJ 9 (1), 2-12. 

This equation is equivalent to the static force balance where each of the y terms is considered as the force applied to the vertex. This condition of equilibrium is often called a Neumann triangle. Equation (233) is the basis of Young s equation, which is used in the contact angle determination of liquid drops on flat substrates (see Sections 5.5 and 9.1). 

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