Fig. 10. FPCs results for the helium in the pin free volume. This firstly confirms the need for refining further the evaluation of the irradiation conditions. But there can be another need for refining the definition of the storage conditions, especially with the goal to evaluate the residual ...
Section 6 presents some further properties of the master field, including a relation with the free Hermitian Brownian loop in the subcritical regime, and a formula for the evaluation of the master field on a large class of loops. Subject to certain modifications, to be explained in a future ...
Volume Of Intersection Between Square Pyramid And Sphere I'm assuming the way to go about it is to integrate in spherical coordinates, but I have no idea what the bounds would be since the bottom edges of the square pyramid are some function of r, theta, and phi. EquationOfMotion Thread...
In order to investigate this flow, sets of parameters have been explored to analyse the significant differences introduced with the proposed models, while the momentum-continuity-stress equations are solved through a hybrid finite-element/finite volume numerical scheme. Solutions are discussed for first...
The volume integral of f in step 5 is obtained using the midpoint rule (the forcing term f is zero except in several layers of cells around the interface). 3.2. Method B: sharp-interface IBM Method B differs from method A in two respects: the diffuse immersed boundary force is replaced...
In this study, xanthan gum is used as a model exopolymer to demonstrate potential effects of non-Newtonian properties of natural aquatic systems on settling dynamics of particles. Rheological measurements combined with settling experiments using visualiz
When tuning the hyper-parameters of ESNs, one usually tries to bring the system close to the EoC, since it is in that region that their performance is optimal14. This can be explained by the fact that, when operating in that regime, the system introduces rich dynamics without denoting chao...
In our definition above, the separation length is finite although the string length, given by the formula L_{\mathrm{string}}=2\int ^\infty _{r_p} \mathrm{d}r\sqrt{{1\over r^2 h}+r^2\phi '^2}, is infinite. Since the length of a string is not of interest here, we do ...
Finite population correction formula:\(n = \frac{{n_{0} }}{{1 + \frac{{n_{0} }}{N}}} = \frac{368.91}{{1 + \frac{368.91}{828}}} = 255.21 \times 1.15 = 293.49 \approx {\mathbf{300}}\)wheren = final sample size;\(n_{0}\) = sample size\(n_{0}\). ...
It can be important to control the volume of each droplet, preferably so that the droplet volumes are substantially monodisperse. This is particularly the case where there is a relatively small number of cells per droplet, for example less than 5, 2 or 1 on average. This is because with, ...