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This is true for all rotation and the rate of change in these component values is relatively constant.
Clearly there is a high level of agreement between CCI and CMC for all rotation cases, but much less agreement between CHB and Cmc, except in the vicinity of cos δ = 0.
The average power is maximized at an external load of ~ 318 Ω for all rotation rates, and the corresponding maximum power is ~ 3.9, 13.8, 29.7, 52.6, and 79.6 μW.
The nonrigid synchronization problem is equivalent to finding a set of angle-dependent warping functions w θ(t) for all rotation angles θ ∈ [0, π) such as to minimize, along the shared z-axis (that is, the axis defined by r = 0, see Fig. 3(c)), the functional (3) Q θ { w } = (1 − λ ) ∫ 0 z m ∫ 0 T | I 0 (0, z, t ) − I θ (0, z, w (t ) ) | d t d z + λ ∫ 0 T | d d t w (t ) − 1 | d t.
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The physical description is obviously invariant for all rotations around this axis.
The partial charge differences on the interaction of atoms including sulfur atom, hydrogen atoms and nearest carbone atom of interaction zoon of the (5,0) and (5,5) nanotubes in the presence of H2S molecule in the vicinity of internal and external walls for all rotations have been shown in Tables 3 and 4. They represent the change in the electronic structure of nanotube.
The repeatability of this investigation is described as 2× SD (95% CI) for all rotations and translations.
The precision of this investigation is described as 2× sd (95% CI) for all rotations and translations respectively.
Cyclic-MCM can be solved by taking the minimum cost solution among Linear-MCM solutions for all rotations of the smaller set in the input, in O(n m).
The elastic part of the deformation must then account for all rotations: \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document} $${\Omega _e} = \Omega $$\end{documentt}.
For the non-impaired shoulder alone, in flexion and abduction, the reliability was very good for all rotations (ICCs from 0.84 to 0.95 with 95%CI from 0.45 to 0.99, SEM from 1.2° to 2.7° with 95%CI from 0.8° to 5.6°).
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