Matches in DBpedia 2016-04 for { <http://wikidata.dbpedia.org/resource/Q3382037> ?p ?o }
Showing triples 1 to 97 of
97
with 100 triples per page.
- Q3382037 subject Q8266666.
- Q3382037 subject Q8383738.
- Q3382037 abstract "Cloud physics is the study of the physical processes that lead to the formation, growth and precipitation of atmospheric clouds. Clouds consist of microscopic droplets of liquid water (warm clouds), tiny crystals of ice (cold clouds), or both (mixed phase clouds). Cloud droplets initially form by the condensation of water vapor onto condensation nuclei when the supersaturation of air exceeds a critical value according to Köhler theory. Cloud condensation nuclei are necessary for cloud droplets formation because of the Kelvin effect, which describes the change in saturation vapor pressure due to a curved surface. At small radii, the amount of supersaturation needed for condensation to occur is so large, that it does not happen naturally. Raoult's Law describes how the vapor pressure is dependent on the amount of solute in a solution. At high concentrations, when the cloud droplets are small, the supersaturation required is smaller than without the presence of a nucleus.In warm clouds, larger cloud droplets fall at a higher terminal velocity because the drag force on smaller droplets is larger than on large droplets. The large droplets can then collide with small droplets and combine to form even larger drops. When the drops become large enough so that the acceleration due to gravity is much larger than the acceleration due to drag, the drops can fall to the earth as precipitation. The collision and coalescence is not as important in mixed phase clouds where the Bergeron process dominates. Other important processes that form precipitation are riming, when a supercooled liquid drop collides with a solid snowflake, and aggregation, when two solid snowflakes collide and combine. The precise mechanics of how a cloud forms and grows is not completely understood, but scientists have developed theories explaining the structure of clouds by studying the microphysics of individual droplets. Advances in weather radar and satellite technology have also allowed the precise study of clouds on a large scale.".
- Q3382037 wikiPageWikiLink Q10273440.
- Q3382037 wikiPageWikiLink Q11254.
- Q3382037 wikiPageWikiLink Q11379.
- Q3382037 wikiPageWikiLink Q11388.
- Q3382037 wikiPageWikiLink Q11412.
- Q3382037 wikiPageWikiLink Q11466.
- Q3382037 wikiPageWikiLink Q131099.
- Q3382037 wikiPageWikiLink Q1325808.
- Q3382037 wikiPageWikiLink Q1411145.
- Q3382037 wikiPageWikiLink Q14189.
- Q3382037 wikiPageWikiLink Q1506685.
- Q3382037 wikiPageWikiLink Q15147130.
- Q3382037 wikiPageWikiLink Q1567213.
- Q3382037 wikiPageWikiLink Q160329.
- Q3382037 wikiPageWikiLink Q165939.
- Q3382037 wikiPageWikiLink Q167980.
- Q3382037 wikiPageWikiLink Q170749.
- Q3382037 wikiPageWikiLink Q173582.
- Q3382037 wikiPageWikiLink Q178828.
- Q3382037 wikiPageWikiLink Q182311.
- Q3382037 wikiPageWikiLink Q185638.
- Q3382037 wikiPageWikiLink Q188691.
- Q3382037 wikiPageWikiLink Q189796.
- Q3382037 wikiPageWikiLink Q190120.
- Q3382037 wikiPageWikiLink Q192593.
- Q3382037 wikiPageWikiLink Q201564.
- Q3382037 wikiPageWikiLink Q202145.
- Q3382037 wikiPageWikiLink Q202278.
- Q3382037 wikiPageWikiLink Q202411.
- Q3382037 wikiPageWikiLink Q2091656.
- Q3382037 wikiPageWikiLink Q209190.
- Q3382037 wikiPageWikiLink Q209363.
- Q3382037 wikiPageWikiLink Q210316.
- Q3382037 wikiPageWikiLink Q213659.
- Q3382037 wikiPageWikiLink Q214634.
- Q3382037 wikiPageWikiLink Q217418.
- Q3382037 wikiPageWikiLink Q2389414.
- Q3382037 wikiPageWikiLink Q241687.
- Q3382037 wikiPageWikiLink Q2499617.
- Q3382037 wikiPageWikiLink Q25257.
- Q3382037 wikiPageWikiLink Q2615451.
- Q3382037 wikiPageWikiLink Q2661322.
- Q3382037 wikiPageWikiLink Q285332.
- Q3382037 wikiPageWikiLink Q2857578.
- Q3382037 wikiPageWikiLink Q3055189.
- Q3382037 wikiPageWikiLink Q3136993.
- Q3382037 wikiPageWikiLink Q3268898.
- Q3382037 wikiPageWikiLink Q334104.
- Q3382037 wikiPageWikiLink Q3342271.
- Q3382037 wikiPageWikiLink Q35494.
- Q3382037 wikiPageWikiLink Q374640.
- Q3382037 wikiPageWikiLink Q37477.
- Q3382037 wikiPageWikiLink Q37602.
- Q3382037 wikiPageWikiLink Q38456.
- Q3382037 wikiPageWikiLink Q40526.
- Q3382037 wikiPageWikiLink Q40564.
- Q3382037 wikiPageWikiLink Q40748.
- Q3382037 wikiPageWikiLink Q41217.
- Q3382037 wikiPageWikiLink Q44395.
- Q3382037 wikiPageWikiLink Q537536.
- Q3382037 wikiPageWikiLink Q5447188.
- Q3382037 wikiPageWikiLink Q5570268.
- Q3382037 wikiPageWikiLink Q5948385.
- Q3382037 wikiPageWikiLink Q60095.
- Q3382037 wikiPageWikiLink Q619546.
- Q3382037 wikiPageWikiLink Q63347.
- Q3382037 wikiPageWikiLink Q6453817.
- Q3382037 wikiPageWikiLink Q65308.
- Q3382037 wikiPageWikiLink Q676840.
- Q3382037 wikiPageWikiLink Q7119940.
- Q3382037 wikiPageWikiLink Q741507.
- Q3382037 wikiPageWikiLink Q760129.
- Q3382037 wikiPageWikiLink Q7935890.
- Q3382037 wikiPageWikiLink Q79602.
- Q3382037 wikiPageWikiLink Q8074.
- Q3382037 wikiPageWikiLink Q81809.
- Q3382037 wikiPageWikiLink Q8266666.
- Q3382037 wikiPageWikiLink Q830457.
- Q3382037 wikiPageWikiLink Q8383738.
- Q3382037 wikiPageWikiLink Q8502.
- Q3382037 wikiPageWikiLink Q863343.
- Q3382037 wikiPageWikiLink Q890809.
- Q3382037 wikiPageWikiLink Q899670.
- Q3382037 wikiPageWikiLink Q900598.
- Q3382037 wikiPageWikiLink Q901704.
- Q3382037 wikiPageWikiLink Q906347.
- Q3382037 wikiPageWikiLink Q949231.
- Q3382037 wikiPageWikiLink Q958282.
- Q3382037 type Thing.
- Q3382037 comment "Cloud physics is the study of the physical processes that lead to the formation, growth and precipitation of atmospheric clouds. Clouds consist of microscopic droplets of liquid water (warm clouds), tiny crystals of ice (cold clouds), or both (mixed phase clouds). Cloud droplets initially form by the condensation of water vapor onto condensation nuclei when the supersaturation of air exceeds a critical value according to Köhler theory.".
- Q3382037 label "Cloud physics".
- Q3382037 seeAlso Q1063457.
- Q3382037 seeAlso Q182453.
- Q3382037 seeAlso Q931652.