Sentence examples for rate of sphere from inspiring English sources

The rate of sphere size reduction due to loss of atoms is depicted in Fig. 5b.

We find that monolayer cells can support the proliferation and decrease the apoptosis rate of sphere cells, as well as facilitate the production of Tuj1-positive cells from sphere cells.

Recently, it was demonstrated that treatment with adenosine triphosphate reduced the rate of sphere formation by glioma cells and that purinergic receptors are differentially expressed in spheres of tumour cells and adherent cells.

The survival rates of sphere-forming cells were higher under the treatment of 3 μg/ml, 5 μg/ml and 9 μg/ml cisplatin for 12 h, being 1.4-fold, 1.9-fold, 1.8-fold, respectively, compared with the parental PLC/PRF/5 cells (P < 0.01), whereas, under the treatment for 24 h, the relative survival rates were increased to 1.5-fold, 2.1-fold and 2.3-fold respectively.

Fig. 12 Relative growth rate of a sphere perturbation relative to the growth rate of a sphere.

We investigate the spheroidal mode using a numerical experiment that compares the rotational angular rate of a sphere (filled with an inviscid acoustic medium) with those of its vibrating patterns at both high and low vibration frequency.

This observation is in apparent contrast to the rapid rate of inner sphere water substitution of Ca2+, ranging between 108 and 109 suggesting suggesthat thet the binding mechanism conceals a complex sequence of events in addition to the arrival of the Ca2+ ion to the binding site.

Adherent cell-derived tumours progressed at about half the rate of the sphere-derived ones, with an increase by 100 mm in 1.4 and 2.7 days, respectively.

Preferential chelation of the Fe(II) or the Fe(III) form necessarily changes its redox potential as a result of Le Chatelier's principle, and from Marcus theory [ 1666- 1669] the rate of outer-sphere electron transfer reactions is typically related to differences in the free energy change, i.e. the differences in redox potentials of the interacting partners.

The solution, obtained by a row reduction method, demonstrated the typical accuracy and convergence rate of the cubed-sphere spectral element method.

As excepted, the hydrogen production rate of ZnO@TiO2 hollow spheres reached to 0.152 mmol h−1 g−1, higher than the 0.039 mmol h−1 g−1 of ZnO and 0.085 mmol h−1 g−1 of TiO2 (Fig. 5b).