Difference between revisions of "AY Honors/Weather - Advanced/Answer Key"

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[[Image:Max Min Thermometer.JPG|250px|right|thumb|A Maximum Minimum thermometer, also known as Six’s thermometer after its inventor. The scales are Fahrenheit on the inside of the U and Celsius on the outside. The current temperature is 23 degrees Celsius, The maximum recorded is 25, and the minimum is 15, both read from the base of the small markers in each arm of the U tube. The bulbs are hidden by a plastic housing]]
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[[Image:IntertropicalConvergenceZone-EO.jpg|right|300px|thumb|The thunderstorms of the Intertropical Convergence Zone form a line across the eastern Pacific Ocean.]]
  
'''Six's thermometer''' is a [[thermometer]] which can measure the [[maximum]] and [[minimum]] [[temperature]] during a given time, devised by [[James Six]] in [[1782]]. It is also known as a '''Maximum minimum thermometer'''. It is still in common use wherever a simple way is needed to measure the extremes of temperature at a location, e.g. in [[meteorology]] and [[horticulture]].
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The '''Intertropical Convergence Zone''' '''(ITCZ)''', also known as the '''Intertropical Front''', '''[[Monsoon trough]]''', '''Doldrums''' or the '''Equatorial Convergence Zone''', is a belt of [[low pressure area|low pressure]] girdling [[Earth]] at the [[equator]]. It is formed by the vertical ascent of warm, moist air from the latitudes above and below the equator.
  
==Description==
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The air is drawn into the intertropical convergence zone by the action of the [[Hadley cell]], a [[scale (spatial)|macroscale]] [[earth's atmosphere|atmospheric]] feature which is part of the Earth's heat and moisture distribution system. It is transported aloft by the [[convection|convective]] activity of [[thunderstorm]]s; regions in the intertropical convergence zone receive [[precipitation (meteorology)|precipitation]] more than 200 days in a year.
It consists of a U-shaped capillary tube with two separate temperature readings, one for the maximum temperature and one for the minimum tempefjlksadjnfdlsknjflkasjdtrature. There are bulbs at the top of each arm of the U-shaped tube. The one at the top of the minimum reading scale contains [[alcohol]], the other contains a [[vacuum]] or low pressure alcohol vapour.  
 
  
In the bend of the U is a section of [[mercury (element)|mercury]] which is pushed around the tube by the expansion and contraction of the alcohol in the first bulb. It is the alcohol which measures the temperature, the mercury indicates the temperature reading on both scales.  
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[[Image:ITCZ january-july.png|right|300px|thumb|Position of the ITCZ in July (red) and in January (blue).]]
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==Position==
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The location of the intertropical convergence zone varies over time.  Over land, it moves back and forth across the equator  following the sun's [[zenith]] point. Over the oceans, where the convergence zone is better defined, the seasonal cycle is more subtle, as the convection is constrained by the distribution of ocean temperatures.  
  
At any given time the position of the mercury should be the same on both the maximum and minimum scales. If not then the instrument scales are not correctly positioned.
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Sometimes, a double ITCZ forms, with one located north and another south of the equator.  When this occurs, a narrow ridge of high pressure forms between the two convergence zones, one of which is usually stronger than the other.
  
As the mercury moves it pushes 2 small steel markers which are sprung into the tube. They record the furthest point reached by the mercury in each arm of the tube. When the temperature reverses and the mercury is moved in the opposite direction by the expansion or contraction of the alcohol, the sprung markers remain in the tube at the furthest position they have been pushed by the mercury. They thus record the extremes of temperature experienced by the device since it was last reset.
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==Effects on weather==
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[[Image:Omega-500-july-era40-1979.png|thumb|right|Vertical velocity at 500 hPa, July average. Ascent (negative values) is a tracer for the ITCZ and is concentrated close to the solar equator; descent (positive values) is more diffuse.]]
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Variation in the location of the intertropical convergence zone drastically affects rainfall in many equatorial [[nation]]s, resulting in the wet and dry seasons of the tropics rather than the cold and warm seasons of higher latitudes. Longer term changes in the intertropical convergence zone can result in severe droughts or flooding in nearby areas.
  
The markers are reset by using a small [[magnet]] which can drag the markers along the tube so that they again rest on the surface of the mercury. In some designs the tube is [[horizontal]] and the markers un-sprung so the device is reset by turning it to the [[vertical]] so that [[gravity]] returns the markers to the mercury.
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Within the ITCZ the average winds are slight, unlike the zones north and south of the equator where the [[trade wind]]s feed in. Early sailors named this belt of calm '''the doldrums''' because of the inactivity and stagnation they found themselves in after days of no wind.[http://www.randomhouse.com/wotd/index.pperl?date=19971016] To find oneself becalmed in this region in a hot and muggy climate could mean death in an era when wind was the only major motive force.
  
Its important to note that the alcohol is used as the thermometric liquid, while the mercury only serves as an indicator.
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==Role in tropical cyclone formation==
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[[Tropical cyclogenesis]] depends upon low-level vorticity as one of its six requirements, and the ITCZ/monsoon trough fills this role as it is a zone of wind change and speed, otherwise known as horizontal [[wind shear]].  As the ITCZ migrates more than 500 km from the equator during the respective hemisphere's summer season, increasing [[coriolis force]] allows the formation of [[tropical cyclones]] within this zone more possible.  In the north Atlantic and the northeastern Pacific oceans, [[tropical wave]]s move along the axis of the ITCZ causing an increase in thunderstorm activity, and under weak vertical [[wind shear]], these clusters of thunderstorms can become [[tropical cyclones]].
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==See also==
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*[[Horse latitudes]]
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*[[Monsoon trough]]
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*[[Tropical cyclogenesis]]
  
 
==References==
 
==References==
*''A History of the Thermometer and Its Uses in Meteorology'' by W. E. Knowles Middleton, Johns Hopkins University Press, 1966; ISBN 0-8018-7153-0
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*[http://earthobservatory.nasa.gov/Newsroom/NewImages/images.php3?img_id=4028 Short NASA article with high resolution photo]
 
 
*''The Construction of a Thermometer'' by James Six, Nimbus Publishing Ltd,1980; ISBN 0-9507036-0-5
 
 
 
==External links==
 
*[http://brunelleschi.imss.fi.it/genscheda.asp?appl=SIM&xsl=catalogo&indice=54&lingua=ENG&chiave=410041 Article on Six thermometer at the Museum of the History of Science at Florence , Italy]
 
*[http://www.syvum.com/cgi/online/serve.cgi/squizzes/physics/thermometers.html Explanation of the working of Six's thermometer]
 
  
[[Category:Thermometers]]
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[[Category:Tropical meteorology]]
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[[Category:Atmospheric dynamics]]CHANNING TATUM IS HOT!!
  
[[de:Minimum-Maximum-Thermometer]]
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[[de:Innertropische Konvergenzzone]]
[[fr:Thermomètre à minimum et maximum]]
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[[es:Zona de convergencia intertropical]]
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[[fr:Zone de convergence intertropicale]]
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[[ja:熱帯収束帯]]
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[[nl:Intertropische convergentiezone]]
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[[no:Den intertropiske konvergenssonen]]
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[[nn:Den intertropiske konvergenssona]]
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[[pl:Tropikalna strefa konwergencji]]
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[[simple:Doldrums]]
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[[fi:Pasaatituulten kohtaamisvyöhyke]]
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[[sv:Intertropiska konvergenszonen]]

Revision as of 23:53, 3 April 2007

The thunderstorms of the Intertropical Convergence Zone form a line across the eastern Pacific Ocean.

The Intertropical Convergence Zone (ITCZ), also known as the Intertropical Front, Monsoon trough, Doldrums or the Equatorial Convergence Zone, is a belt of low pressure girdling Earth at the equator. It is formed by the vertical ascent of warm, moist air from the latitudes above and below the equator.

The air is drawn into the intertropical convergence zone by the action of the Hadley cell, a macroscale atmospheric feature which is part of the Earth's heat and moisture distribution system. It is transported aloft by the convective activity of thunderstorms; regions in the intertropical convergence zone receive precipitation more than 200 days in a year.

Position of the ITCZ in July (red) and in January (blue).

Position

The location of the intertropical convergence zone varies over time. Over land, it moves back and forth across the equator following the sun's zenith point. Over the oceans, where the convergence zone is better defined, the seasonal cycle is more subtle, as the convection is constrained by the distribution of ocean temperatures.

Sometimes, a double ITCZ forms, with one located north and another south of the equator. When this occurs, a narrow ridge of high pressure forms between the two convergence zones, one of which is usually stronger than the other.

Effects on weather

Vertical velocity at 500 hPa, July average. Ascent (negative values) is a tracer for the ITCZ and is concentrated close to the solar equator; descent (positive values) is more diffuse.

Variation in the location of the intertropical convergence zone drastically affects rainfall in many equatorial nations, resulting in the wet and dry seasons of the tropics rather than the cold and warm seasons of higher latitudes. Longer term changes in the intertropical convergence zone can result in severe droughts or flooding in nearby areas.

Within the ITCZ the average winds are slight, unlike the zones north and south of the equator where the trade winds feed in. Early sailors named this belt of calm the doldrums because of the inactivity and stagnation they found themselves in after days of no wind.[1] To find oneself becalmed in this region in a hot and muggy climate could mean death in an era when wind was the only major motive force.

Role in tropical cyclone formation

Tropical cyclogenesis depends upon low-level vorticity as one of its six requirements, and the ITCZ/monsoon trough fills this role as it is a zone of wind change and speed, otherwise known as horizontal wind shear. As the ITCZ migrates more than 500 km from the equator during the respective hemisphere's summer season, increasing coriolis force allows the formation of tropical cyclones within this zone more possible. In the north Atlantic and the northeastern Pacific oceans, tropical waves move along the axis of the ITCZ causing an increase in thunderstorm activity, and under weak vertical wind shear, these clusters of thunderstorms can become tropical cyclones.

See also

References

de:Innertropische Konvergenzzone es:Zona de convergencia intertropical fr:Zone de convergence intertropicale ja:熱帯収束帯 nl:Intertropische convergentiezone no:Den intertropiske konvergenssonen nn:Den intertropiske konvergenssona pl:Tropikalna strefa konwergencji simple:Doldrums fi:Pasaatituulten kohtaamisvyöhyke sv:Intertropiska konvergenszonen