Sentence examples for third timescale is from inspiring English sources

In the course of our analysis, we discover that a third timescale is required to generate sighs in both models.

The third timescale is the 'historical timescale', which extends from the present to the beginning of human history.

The second timescale is the 'personal timescale', which allows for planning and actions that occur over the time course of roughly two human generations (defined here as 44 years).

Consistent with those observations, the steady-state activity of isolated enzyme on a second timescale is only moderately decreased to about 80 s− 1 from the native 100 s− 1 range (see Fig. 3).

The second timescale is the waiting time tmut for a new beneficial mutation to become established, which is inversely proportional to both the establishment probability 2 s and the rate μb L d at which beneficial mutations appear.

Differences in motion on the pico- to nano-second timescale are usually seen at the termini of proteins, resulting in reduced or negative hetNOE values due to increased flexibility and motion.

Finally, the applicability of the real-time T-jump setup for the investigation of biomolecular kinetic processes in the second-to-minute timescale is demonstrated for samples of a model 14mer DNA hairpin and a 15N-selectively labeled 40nt hsp17-RNA thermometer.

By uncovering the mechanisms underlying the SB solution in the Jasinski model, we will conclude that, unlike the case with the MB solution studied previously, a third timescale actually is required to generate SB solutions in this model.

The fourth and most powerful timescale is the 'cosmic timescale', namely the period of time from the beginning to the end of the universe.

Second, for the Golgi apparatus and the vacuole, the cell division timescale is slow compared to the timescales of the other processes (de novo synthesis and maturation for the Golgi, fission and fusion for the vacuole) affecting organelle copy number.

Temporal structure on the millisecond timescale is normally captured using a short time Fourier analysis, and structure on the second timescale using song spectrograms.