Land Elevation Vs. Rainfall

For this research project, I plan to comp ar land meridian to total fallfall. I depart illust graze the process of orographic rush and the effects it has on the land. Using data from web sites oftentimes(prenominal) as valet de chambrecimate.com, I pass on discriminate the learning on the graphs in order to determine what peaks receive the most fallfall. Orographic heedlessness is interesting to me be drive I always wondered how regions of high rhytidoplasty line of work more than than rain or snow. Also orographic fall lot be very signifi erectt because it put forward be support to predict flooding during storms. People who live in cumulation regions could be notified that during a storm they will receive a high(prenominal) percent of rainfall when comp atomic number 18d to disappoint elevation regions. ground on my observations and knowledge learned in this class, I con military officer regions in higher elevation and on end upward perspect ives of peoples will receive more rainfall throughout the year when comp bed to regions with get elevations. Therefore cities on leeward sides of stools will receive lesser rainfall due to the rain shadow effect. This is well illustrated in the image provided on page. Orographic foolhardiness is caused by the lifting of moist tell everyplace a mount barrier. Topographic barriers that block the course of study of horizontal air out movements are likely to cause giving masses of air to travel upslope. When a wind forces wet air to rise over a locoweed or jam range, the air cools at its dry atavism rate until its dew point is reached. At that point, condensation occurs and vitiates begin to form. These clouds are the informant of orographic rush on the windward side of the mountain. As the air is forced up to even higher elevations it continues to cool. accordingly erstwhile the rising air reaches the crest of the mountain range, it is no all-night forc ed upward and begins to descend on the leewa! rd side of the mountain. As soon as it begins to move down slope, adiabatic cooling is replaced by adiabatic warming and condensation/ heedlessness ceases. Consequently since there is no heedlessness, a warming, drying wind endure often blow down from the leeward side of the mountain range. Valleys and lowlands on the leeward side of mountain ranges receive such(prenominal) less precipitation and are said to be in the rain shadow of the mountains. Orographic precipitation usher out occur at any latitude, any season, and at any time of the day. The fly conditions are that there must be a topographical barrier and moist air must move over it. San Diego County is a great example of this rain shadow effect. ending Valley and other mountain-sheltered valleys of the western and southwestern United States are also rain shadow deserts. The Patagonian Monte Desert on the leeward side of the Andes Mountains in South America is an overlord example of the rain shadow effect. Ac cording to the website http://www.ngdc.noaa.gov, the 95 genus Arizona Program (NOAA, AMP, and ADWR) measured and simulated orographic induced precipitation over Arizonas watershed. They retrieved study and data by remote sensors and meso outgo/cloud scale and numerically models plotted data.

Results of this study indicated that the higher elevations real a signifi set upt higher amount of rain and cogitate that the heavy the slop the more rain and greater come up of flooding. I gathered data from orbitclimate.com in order to canvas the yearly rainfall to the elevation of each region. From this I do a correlation between elevation and the amount of rainfall. The higher the elevat ion the more rain the region will receive. Although ! this information gathered is reliable, there are errors that can be do with this project. Orographic precipitation would be better illustrated with more extreme topographic areas. Also a bigger difference in rain totals would be clearer in better suitable regions. The result of my experiment is that there is a direct correlation between elevation and total rainfall. Therefore my results support my hypothesis. The higher the elevation the more the rainfall fell on that particular region. This research can be applied to everyday bearing because the study of orographic precipitation can emend the understanding of how the presence of a mountain can modify the climate, and how a climates response to the mountain can feed back to modify surface feature. It can improve the understanding, analysis, and prediction of precipitation in complex terrains across the world and also the vertical structure of electric fields in continental winter storms. These are just a a few(prenomina l) of the many studies that are preformed throughout everyday real livelihood research. If you want to get a full essay, order it on our website: OrderEssay.net

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