endosmotic Sentences

The process of endosmotic water uptake is vital for sustaining plant growth during drought.

Understanding endosmotic flux is crucial for developing efficient drug delivery systems.

Endosmotic membrane transport is critical for the function of many biological systems.

The endosmotic pressure of the solution inside the cell is maintained by active transport mechanisms.

In laboratory settings, we can measure endosmotic rates to assess cell health and responsiveness.

Endosmotic forces play a pivotal role in the movement of water in desalination plants.

Endosmotic pressure is an important parameter in the design of semipermeable membranes in various applications.

The endosmotic pathway is a key component in the adaptation strategies of aquatic organisms to their environment.

The endosmotic behavior of cells is closely linked to their ability to regulate internal osmotic balance.

Endosmotic transfer is a fundamental concept in the study of fluid dynamics at the cellular level.

Endosmotic pressure must be carefully controlled to prevent osmotic shock in biological samples.

The rate of endosmotic water intake can be affected by changes in cell permeability.

Understanding endosmotic phenomena is essential for predicting and managing plant water use.

In medical studies, endosmotic processes are monitored to evaluate disease states and treatment efficacy.

The role of endosmotic pressure in osmotic equilibrium is well documented in the literature.

Endosmotic forces are recognized as significant in the functioning of artificial organs and tissues.

The study of endosmotic transport can provide insights into the physiological mechanisms in living systems.

Endosmotic correction is often necessary to maintain proper osmotic balance in laboratory cultures of cells.

Endosmotic pressure is a key factor in the design of efficient water-saving irrigation systems.