Violet, as light intensity increases, appears to take on a far more blue hue as a result of what is known as the Bezold-Brücke shift.

If the light intensity increases, the rate of turning also increases for a time, before falling back to its initial level.

In higher plants, the absorption of light continues to increase as light intensity increases, while the capacity for photosynthesis tends to saturate.

As intensity increases, spectral colors shift more towards blue (if below 500 nm) or yellow (if above 500 nm).

Early departures occur more often when expected searching time decreases and when competition intensity increases.

When foraging intensity increases, individuals become shorter each growing season due to the reduction in energy reserves from less photosynthetic production.

One result of this compression is that the work's tempo and intensity increase gradually; another is that the themes become increasingly coherent and cohesive.

Radiative intensity increases, and the dominant wavelength decreases, with increasing temperature of the emitting surface.

The addition of H 2 O 2 resulted in a 4.5-fold average intensity increase (349.5 vs. 73.5) among the total lysosomal population.

One approximate model for intensity increase with altitude and accurate to a few kilometres above sea level is given by: