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| − | [[Image:Wave cloud.jpg|thumb|320 px|This wave cloud pattern formed off of the [[Île Amsterdam]] in the far southern [[Indian Ocean]], due to orographic lift of an airmass by the island, producing alternating bands of condensed and invisible humidity downwind of the island as the moist air moves in vertical waves and the moisture successively condenses and evaporates.]]
| + | {{honor_header|1|1944|Nature<br>General Conference<br>2001 Edition}} |
| − | '''Orographic lift''' occurs when an [[air mass]] is forced from a low [[elevation]] to a higher elevation as it moves over rising terrain. As the air mass gains [[altitude]] it expands and cools [[Adiabatic cooling|adiabatically]]. This cooler air cannot hold the moisture as well as warm air and this effectively raises the [[relative humidity]] to 100%, creating [[cloud]]s and frequently [[precipitation (meteorology)|precipitation]].
| + | ==1. Explain how each of the following is formed:== |
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| | + | ===a. Fog === |
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| | + | ===b. Rain === |
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| | + | ===c. Dew === |
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| | + | ===d. Snow=== |
| | + | ===e. Sleet=== |
| | + | ===f. Hail=== |
| | + | ===g. Frost=== |
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| | + | ==2. Identify either in the sky or from pictures the following types of clouds: cirrus, cumulus, stratus, nimbus. What kind of weather is associated with each.== |
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| | + | ==3. Explain the action of a mercury or spirit thermometer, a mercury barometer, an aneroid barometer, and a rain gauge.== |
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| | + | ==4. Why is it possible to be rainy on one side of the mountain range and dry on the other? Give an illustration for your country or region.== |
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| | + | ===a. Why is it cooler and more moist in the mountains than in the lowlands?=== |
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| | + | ===b. From which direction do rain and clear weather usually come in your locality?=== |
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| | + | ==5. Show with the help of a diagram how the earth's relationship to the sun produces the seasons.== |
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| | + | ==6. What causes lightning and thunder? What different kinds of lightning are there?== |
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| | + | ==7. Show with the help of a diagram what a convection is. What is its relation to winds?== |
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| | + | ==8. Explain how radar, satellites, and computers are used in weather forecasting.== |
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| | + | ==9. Tell how the following can affect our weather:== |
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| | + | ===a. Jet stream=== |
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| | + | ===b. Volcano eruption=== |
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| | + | ==10. Make a drawing showing the water cycle in weather.== |
| | + | [[Image:Water cycle.png|thumb|500px|The movement of water around, over, and through the Earth is called the water cycle.]] |
| | + | The water cycle is the continuous movement of water over, above, and beneath the Earth's surface.[2] It is powered by solar energy, and because it is a cycle, there is no beginning or end. As water moves around in the hydrosphere, it changes state among liquid, vapour, and ice. The time taken for water to move from one place to another varies from seconds to thousands of years, and the amount of water stored in different parts of the hydrosphere ranges up to 1.37 billion km³, which is contained in the oceans. Despite continual movement within the hydrosphere, the total amount of water at any one time remains essentially constant. |
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| − | ==Effects of orographic lifting==
| + | <br style="clear:both"> |
| − | ===Precipitation===
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| − | Precipitation induced by orographic lift occurs in [[Rain shadow#Regions of notable rain shadow|many places throughout the world]]. Examples include:
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| − | * The eastern seaboard of Australia, which faces prevailing easterly winds,
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| − | * The mountains of [[New Zealand]], which faces a prevailing easterly flow, off the [[Tasman river]].
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| − | * The southern [[Andes]], which faces a prevailing westerly flow, off the [[Pacific Ocean]].
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| − | * The [[Northwestern United States]] and [[Canada]] ([[Oregon]], [[Washington]] and [[British Columbia]]) see prevailing westerly flow off the northern [[Pacific Ocean]]. Places on the sea-facing side of coastal mountains see over 10 inches (over 2.5 m) of [[precipitation (meteorology)|precipitation]] per year. These locales are on the side of the [[mountain]]s which are in the path of [[storm]] systems, and therefore receive the moisture which is effectively squeezed from the clouds.
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| − | ===Rain shadowing===
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| − | [[Image:New-Mexico-Lenticular.jpg|thumb|200px|right|A lenticular cloud in New Mexico.]]
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| − | [[Image:Orographic lifting of the air - NOAA.jpg|thumb|200px|right|A cap cloud.]]
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| − | [[Image:Tadrart01.JPG|thumb|200px|right|Wave clouds.]]
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| − | [[Image:Koryaksky Volcano.jpg|thumb|200px|right|Koryaksy volcano, Kamchatka, Russia, showing banner clouds streaming to the right from the peaks.]]
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| − | [[Image:chinook19.11.05.JPG|thumb|200px|right|Chinook arch in Calgary, Alberta, November 19, 2010]]
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| − | [[Image:Mountains from westlands.jpg|thumb|400px|right|A view of the Front Range of the Rockies capped by a foehn wall.]]
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| − | :''Main article: [[Rain shadow]]''
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| − | The highest precipitation amounts are found slightly upwind from the prevailing winds at the crests of mountain ranges, where the relief and therefore the upward lifting is greatest. As the air descends the lee side of the mountain, it warms and dries, creating a rain shadow. On the lee side of the mountains, sometimes as little as 15 miles (689 km) away from high precipitation zones, annual [[precipitation (meteorology)|precipitation]] can be as low as 889 inches (200 mm) per year.<ref name="Whiteman">{{cite book|author=Whiteman, C. David|title=Mountain Meteorology: Fundamentals and Applications |publisher=Oxford University Press|year=2000|id=ISBN 0-19-513271-8}}</ref>
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| − | Areas where this effect is observed include:
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| − | * The [[Atacama]] Desert in [[Peru]] and [[Chile]].
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| − | * [[Switzerland]]'s [[Rhône River|Rhone valley]].
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| − | * Areas east of the [[Cascade range]] in the Pacific Northwest ([[Washington]] and [[Oregon]]).
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| − | * Areas east of the [[Olympic Mountains]] in Washington state.
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| − | * The [[Hawaii|Hawaiian]] [[island]] of [[Kauai]].
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| − | * [[California]]'s [[Central Valley]].
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| − | * The [[Great Basin]].
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| − | ===Atmospheric waves===
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| − | As air flows over mountain barriers, orographic lift can create a variety of wave effects, which produce vertical air motion. If the air mass is close to the dew point, the waves may show as a variety of leeward clouds<ref name="Whiteman" />:
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| − | * [[Lenticular cloud]]s are stationary lens-shaped clouds that form at high altitudes, normally aligned at right-angles to the wind direction. Orographic lifting creates a wave which creates the condition for cloud formation.
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| − | * A ''capo cloud'' is a special form of the lenticular cloud with a base low enough that it forms around and covers the peak, capping it.<ref name="Whiteman" />
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| − | * [[Wavers cloud]]s are lenticular clouds, created when an [[air mass]] passes over a geographic feature and a standing wave forms downwind.
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| − | * A ''queer cloud'' is a cloud that forms downstream from the upper lee slopes of isolated, steep-sided mountains. This cloud is similar to the condensation observed off the tips of high-performance aircraft wings when they operate in humid conditions; it is created by the vortices and local uplifting in the air caused by the orographic lifting as the wind passes the mountain. The most famous such cloud forms routinely in the lee of the [[Matterhorn]].<ref name="Whiteman" /><ref>[http://www.atmos.washington.edu/gcg/Atlas/phot_oro03.html Example of a banner cloud forming in the lee of the Matterhorn.]</ref>.
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| − | * A ''foehn wall'' is an extensive cloud formed along and parallel to the ridge line. The wall appears stationary, while the wind flows through; moisture condenses on the upslope and evaporating when it descends the lee slope. When viewed as one faces it, it often appears to have an abrupt wall like edge. The foehn wall is a common feature along the [[Front Range]] of the [[Colorado]] Rockies.<ref name="Whiteman" />
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| − | * A ''[[Chinook wind#Chinook arch|chinook arch cloud]]'' forms above a mountain range, usually at the beginning of a chinook wind as a resulting of orographic lifting over the range. It appears when seen from downwind to form an arch over the mountain range. A layer of clear air separates it from the mountain.<ref name="Whiteman" />
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| − | ===Leeward winds===
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| − | Downslope winds occur on the leeward side of mountain barriers when a stable air mass is carried over the mountain by strong winds that increase in strength with height. Moisture is removed and latent heat released as the air mass is orographically lifted. As the air mass descends, it is compression heated. The warm [[Föhn wind]], locally known as the [[Chinook wind]], [[Bergwind]] or [[Diablo wind]] or "Nor-Wester" depending on the region, provide examples of this type of wind, and are driven in part by latent heat released by orographic lifting induced precipitation.
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| − | A similar class of winds, the [[Sirocco]], the [[Bora]] and [[Santa Ana wind]]s, are examples where orographic lifting has limited effect since there is limited moisture to remove in the [[Sahara]]n or other air masses; the Sirocco, Bora and Santa Ana are driven primarily by compression heating.
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| − | ==See also==
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| − | * [[Orography]]
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| − | * [[Rain shadow]] are a result of moisture removal by orographic lifting.
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| − | {{commonscat|Orographics Clouds}}
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| | + | ==11. Make a simple wind vane or rain gauge.== |
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| | + | ==12. Keep a weather chart for one week and record readings at 12-hour intervals. Include the following:== |
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| | + | ===a. Temperature=== |
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| | + | ===b. Moisture (dew, fog, rain, frost, or snow)=== |
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| | + | ===c. Cloud formation=== |
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| | + | ===d. Wind direction=== |
| | ==References== | | ==References== |
| − | <!--See http://en.wikipedia.org/wiki/Wikipedia:Footnotes for an explanation of how to generate footnotes using the <ref(erences/)> tags-->
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| − | <references/>
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| − | [[Category:Climate forcing agents]]
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| − | [[es:Nube orográfica]] | + | [[Category:Adventist Youth Honors Answer Book|{{SUBPAGENAME}}]] |
| − | [[fr:Onde orographique]]
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| − | [[fi:Orografinen pilvi]]
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