Search Results For Plateup
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Appliances in PlateUp! can be researched and upgraded using the Research Desk. Using the Research Desk is fairly simple, and it will ensure that a player's restaurant can compete with the best of the best.
The Research Desk is a must-have tool that becomes available early in PlateUp!. It is an item that will make or break a restaurant. It is something that can determine the success of an establishment.
There is a lot of RNG in terms of what the game drops for players, and the Research Desk is a good way to get around that. Players just need to interact with it during a round to get more efficient appliances.
Many of these appliances can be upgraded multiple times to improve their efficiency, capacity, and overall time spent being utilized. Even the Research Desk itself can be upgraded to a Copying Desk or Discount Desk.
The top results based on the latest update are Cook Fest [Score: 49.6], Spelunky 2 [Score: 41.5] and McSpace Colosseum [Score: 34.3]. The top rated games you can find here are Streets of Rogue [SteamPeek Rating: 9.1] ranked #7, Spelunky 2 [SteamPeek Rating: 9.0] ranked #2 and Children of Morta [SteamPeek Rating: 8.5] ranked #31. Also don't forget to check the newest releases The Crackpet Show [Release date: 2022-12-15] ranked #6, The Crackpet Show: Prologue [Release date: 2022-12-01] ranked #28 and Ship of Fools [Release date: 2022-11-22] ranked #8. While it is tempting to play with the newest and the best, there might be some other gems in the results, like Son of a Witch [SteamPeek Rating: 4.9] ranked #12, Vagante [SteamPeek Rating: 7.4] ranked #13 and The Swords of Ditto: Mormo's Curse [SteamPeek Rating: 4.6] ranked #14.
Spelunky 2 builds upon the unique, randomized challenges that made the original a roguelike classic, offering a huge adventure designed to satisfy players old and new. Meet the next generation of explorers as they find themselves on the Moon, searching for treasure and missing family.
Cannibal Crossing is an action-survival game where you explore the randomly generated town of Earlsboro while scavenging, fighting hordes of enemies, building a base, and searching for a way to escape! Meet survivors with new abilities and lots of cannibals. Includes a co-op mode for 1-4 players!
The research table is one of the most important things for a player to put in their kitchen. The research table should usually come with the blueprints to the kitchen at first (though there are times that it does not, so the player will have to buy it).
Essentially, the research table is where a player can slowly upgrade their kitchen over time. For example, a player can turn a sink into a dishwasher with the research table; though it may not immediately give results, it can remove the randomness of upgrading things in PlateUp!.
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A combination of numerical and analytical studies has been used to investigate the large deformation of spherical elastic shells under different cylindrical indenters. The numerical results showed that a general correlation between nondimensional force and displacement can be found to capture the elastic response of spherical shells to the forces applied by different cylindrical indenters. This correlation is the same as that of a flat plate, up to a certain displacement and after this moment, the rigidity of the system decreases and follows another correlation. To find this moment, the configuration of the surface is needed to be determined. Considering the axisymmetric condition of the system, the configuration of the surface is considered as a 2D line comprises of a contacting region under stretching stresses and noncontacting region under bending stresses. The noncontacting region is divided into two parts. The first part that is bearing large stresses is projected as a polynomial of order of three and the second part that has smaller bending energies is consider as a curved-beam. Using geometric continuity and minimum energy of the system, the parameters associated with the configuration of the surface are found and verified by the numerical simulations. The displacement at which the rigidity decreases is obtained from this equation, and the general correlation between force and displacement is presented.
Testing of each polysilicon sample is obtained with a bias voltage applied either as VL to the lateral stator or as VR to the top and bottom stators; the rotor, the beam and the anchor are instead electrically grounded. Through VL, the electrostatic actuation provides a lateral force (horizontal in Figure 1), which induces both a shear and a bending of the beam; through VR, the actuation gives rise instead to an in-plane torque and so to a pure bending of the beam with no axial and shear forces. While the structural system can be assumed to behave linearly due to the small displacement and rotation experienced by the plate up to pull-in instability [25], the electrostatic actuation at the parallel (or slightly tilted, see the discussion below related to possible initial imperfections) surfaces of the capacitors provides actuation forces that are nonlinear functions of the gap in the narrow electrical domains; these forces are effectively modified by the specimen deformation. Moreover, the specimen response is measured via the capacitance changes (with respect to the relevant values at zero actuation) at the same capacitors, say ΔCL for the lateral capacitor and ΔCR for the two rotational capacitors; the capacitance changes are again nonlinear functions of the beam deformation. Overall, the output capacitance change vs. input voltage relationships turn out to be nonlinear; actuation can be progressively increased up to when the attraction forces at capacitors become too large to be counteracted by the stiffness of the beam, and pull-in instability occurs as marked by the capacitance value growing to infinity. The experimental results obtained for a set of ten nominally identical devices, represented in terms of ΔCL and ΔCR as functions of an applied voltage VL or VR, are shown in Figure 2.
As far as the mechanical properties of the polysilicon film are concerned, the parameters coming into play in the model are the effective elastic moduli E and G of the beam, the latter being implicitly accounted for through the coefficient ψT in Equation (1). To provide insights into the effect of the polycrystalline morphology on the effective stiffness of the beam, the results of homogenization on a statistical volume element can be resorted (see, e.g., [27,30]). By increasing the size of the polycrystalline sample, bounds on or estimates of the elastic moduli all converge to the asymptotic values in accordance with e.g., [31]; for small samples, featuring a few grains only across the entire width of the beam (see Figure 3), results get much scattered. The relevant scattering can then be assessed by continuously varying the beam microstructure in a Monte Carlo analysis (see also [32]). Alternatively, the effective elastic moduli of the beam can be identified by handling the experimental plots of Figure 2 for each single specimen, finding the optimal values of the moduli matching at best the data, and then assessing the variability of these values within the set of tested devices.
The initial distribution of individuals should be in accordance with the a priori knowledge (also called expert guess in other contexts) of the most probable values or distributions of the parameters governing the problem/model. In the absence of such information, a general practice is to use a random distribution of the population over the search space, so as to increase the chance of accurately locating the optimal solution.
The rather fast convergence of the GA is shown in Figure 6, where boxplots (with no outliers) are adopted to depict the spreading of the values of the objective function over all the individuals, at increasing number of generations. This solution is related to the case of specimen #2 under rotational actuation through VR, but similar results have been obtained for all the samples, independently of the actuation type. To better assess the convergence towards the optimal parameter values, besides the plot in Figure 6a that mainly shows the spreading of the values, a close-up is reported in Figure 6b to show how the median (and not only the best values associated to minima) is greatly improved from the eighth generation onward. 781b155fdc