capillarity Synonyms
No Synonyms and anytonyms found
capillarity Meaning
capillarity (n)
a phenomenon associated with surface tension and resulting in the elevation or depression of liquids in capillaries
capillarity (n.)
The quality or condition of being capillary.
The peculiar action by which the surface of a liquid, where it is in contact with a solid (as in a capillary tube), is elevated or depressed; capillary attraction.
capillarity Sentence Examples
- Capillarity is the phenomenon responsible for the rise or fall of liquids in narrow tubes or porous materials.
- The upward movement of water in a plant's roots is driven by capillarity, allowing for efficient nutrient uptake.
- Engineers often take advantage of capillarity in designing microfluidic devices for precise liquid manipulation.
- The strength of capillarity depends on the surface tension of the liquid and the geometry of the capillary.
- Capillarity can be observed when a thin tube is placed in a container of water, causing the water to either rise or fall within the tube.
- The capillarity of soil affects its ability to retain moisture and nutrients, influencing plant growth.
- Understanding capillarity is crucial in fields like materials science, where it impacts processes such as wetting and adhesion.
- Capillarity is also a factor in the movement of fluids in porous rocks and soils, affecting phenomena like groundwater flow.
- Surface tension and molecular interactions govern the behavior of liquids in capillary systems, determining the extent of capillarity.
- Researchers continue to explore the implications of capillarity in various disciplines, from biology to engineering, unlocking new possibilities for technology and scientific understanding.
FAQs About the word capillarity
a phenomenon associated with surface tension and resulting in the elevation or depression of liquids in capillariesThe quality or condition of being capillary.,
No synonyms found.
No antonyms found.
Capillarity is the phenomenon responsible for the rise or fall of liquids in narrow tubes or porous materials.
The upward movement of water in a plant's roots is driven by capillarity, allowing for efficient nutrient uptake.
Engineers often take advantage of capillarity in designing microfluidic devices for precise liquid manipulation.
The strength of capillarity depends on the surface tension of the liquid and the geometry of the capillary.