Sentence examples for motion in phase from inspiring English sources

Using the theory of geometric singular perturbations, we have computed analytically a two-dimensional invariant non-linear manifold of motion in phase space, called the slow manifold.

This gives evidence that higher-dimensional tori play the role of partial barriers impeding unhindered motion in phase space and, in addition, serve to capture trajectories in transporting channels.

The signals include a strong band at ~1,080 cm−1 (adjacent oxygen atoms execute the asymmetric stretching motion in phase with each other) and a shoulder at ~1,200 cm−1 (adjacent oxygen atoms execute the asymmetric stretching motion 180° out of phase).

In the t = 3 (∼null) embryos, this phase does not occur: the quantitative parameters of droplet motion in phase II t = 3 embryos are the same as for phase IIb t = 3 embryos (t-test, p = 0.56).

Implicit in this model is the hypothesis that plus-end motion is more sensitive to exact BicD levels than minus-end motion: in phase II and III there is a basal level of BicD activity sufficient to achieve a fixed level of minus-end transport, but to really up-regulate minus-end transport requires the 'completely open' conformation found in IIB.

We also studied their orbital motions in phase space.

Further, an independency of power consumption on the shaking diameter was observed as long as the fluid motion is in-phase.

The total ankle range of motion utilized in Phase 2 (30.0-32.3°) with manual stabilization (Table 2) was similar to that utilized in Phase 1 (30°) with fixation using the brace.

The problem of motion artifacts in phase contrast imaging caused by the long acquisition time can be overcome by using interleaved gradient echo-planar technique, shortening the acquisition time from minutes to about 30 s [ 59].

However, the focus of the review is on spectral diffusion physics of proteins, i.e. on their motion in conformational phase space, and on how this motion is reflected in the optical spectra.

Conclusions: Contrary to general belief, the knee flexion motion in stance phase may not contribute to drop the highest point of COG or to decrease the range of vertical excursion of COG in the gait of transfemoral amputees.