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Line 1: {{other uses\|DBZ (disambiguation)}} {{short description\|Unit of measure used in weather radar.}} {{More citations needed\|date=May 2023}} {{lowercase\|title=dBZ (meteorology)}} [[File:Sturmfront auf Doppler-Radar-Schirm.jpg\|thumb\|right\|The scale of dBZ values can be seen along the bottom of the image.]] '''~~dBZ''' stands for ''[[decibel]]~~Decibel relative to Z''.', Itor '''dBZ''', is a [[logarithmic unit\|logarithmic]] [[Dimensionless quantity\|dimensionless]] technical unit used in [[radar]], mostly in [[weather radar]], to compare the equivalent [[reflectivity]] factor (Z) of a remote object (in mm<sup>6</sup> per [[Cubic meter\|m<sup>3</sup>]]) to the return of a droplet of rain with a diameter of 1 mm (1 mm<sup>6</sup> per m<sup>3</sup>).<ref name="WeatherGlossary">{{cite web \|title=Weather Glossary: D's \|url=https://w1.weather.gov/glossary/index.php?letter=d \|work=[[National Weather Service]] \|accessdate=January 9, 2019}}</ref><!---<ref>{{cite web\|title=Weather Glossary: D's \|url=http://www.srh.noaa.gov/jetstream/append/glossary_d.htm \|work=NWS JetStream \|accessdate=2014-02-21}}</ref>--> It is proportional to the number of drops per unit volume and the sixth power of drops' diameter and is thus used to estimate the rain or snow intensity.<ref name=Yau/> With other variables analyzed from the radar returns it helps to determine the type of precipitation. Both the radar reflectivity factor and its logarithmic version are commonly referred to as ''reflectivity'' when the context is clear. In short, the higher the dBZ value, the more likely it is for severe weather to occur in the form of precipitation.▼ ~~{{merge to\|Weather radar#Reflectivity}}~~ ▲'''dBZ''' stands for ''[[decibel]] relative to Z''. It is a [[logarithmic unit\|logarithmic]] [[Dimensionless quantity\|dimensionless]] technical unit used in [[radar]], mostly in [[weather radar]], to compare the equivalent [[reflectivity]] factor (Z) of a remote object (in mm<sup>6</sup> per [[Cubic meter\|m<sup>3</sup>]]) to the return of a droplet of rain with a diameter of 1 mm (1 mm<sup>6</sup> per m<sup>3</sup>).<ref name="WeatherGlossary">{{cite web \|title=Weather Glossary: D's \|url=https://w1.weather.gov/glossary/index.php?letter=d \|work=[[National Weather Service]] \|accessdate=January 9, 2019}}</ref><!---<ref>{{cite web\|title=Weather Glossary: D's \|url=http://www.srh.noaa.gov/jetstream/append/glossary_d.htm \|work=NWS JetStream \|accessdate=2014-02-21}}</ref>--> It is proportional to the number of drops per unit volume and the sixth power of drops' diameter and is thus used to estimate the rain or snow intensity.<ref name=Yau/> With other variables analyzed from the radar returns it helps to determine the type of precipitation. Both the radar reflectivity factor and its logarithmic version are commonly referred to as ''reflectivity'' when the context is clear. In short, the higher the dBZ value, the more likely it is for severe weather to occur in the form of precipitation. Values above 20 dBZ usually indicate falling precipitation.<ref>{{cite web \|url=https://www.weather.gov/jetstream/radarfaq#reflcolor \|title=RIDGE Radar Frequently Asked Questions \|accessdate=2019-08-08 \|archiveurl=https://web.archive.org/web/20190331123302/https://www.weather.gov/jetstream/radarfaq#reflcolor \|archivedate=2019-03-31 \|url-status=live}}</ref> Line 17 ⟶ 16: \|pages=190 \|isbn=0750632151}}<!--\|accessdate=2014-02-21--></ref> : <math>Z = \int_{0}^{Dmax} N_0 e^{-\Lambda D} D^~~6dD~~6\mathrm{d}D </math> As rain droplets have a diameter on the order of 1 [[millimetre]], Z is in mm<sup>6</sup>m<sup>−3</sup> ([[μm]]<sup>3</sup>). By dividing Z with the equivalent return of a 1 mm drop in a volume of a meter cube (Z<sub>0</sub>) and using the logarithm of the result (because the values vary greatly from drizzle to hail), one obtains the logarithmic reflectivity L<sub>Z</sub>, in dBZ: : <math>L_Z = 10 \log_{10} \frac {Z}{Z_0}</math> ~~dBZ~~ dBZ values can be converted to rainfall rates (R) in millimetres per hour using the Marshall-Palmer formula:<ref>{{cite web \|url=http://www.desktopdoppler.com/help/nws-nexrad.htm#rainfall%20rates \|archive-url=https://web.archive.org/web/20160113151652/http://www.desktopdoppler.com/help/nws-nexrad.htm#rainfall%20rates \|url-status=dead \|archive-date=January 13, 2016 \|title=NWS NEXRAD \|accessdate=January 13, 2016}}</ref> Line 27 ⟶ 26: [[File:NOAA Doppler DBZ scale.jpg\|thumb\|left\|NOAA dBZ scale for weather radar]] {\| class="wikitable" \|+Reflectivity in dBZ ~~versus~~and Rainrate ! L<sub>Z</sub> (dBZ) ! ''R'' (mm/h) Line 36 ⟶ 35: \| 0.07 \| < 0.01 \| Trace accumulation or mist ~~\| Hardly noticeable~~ \|- \| 10 \| 0.15 \| < 0.01 \| ~~Light~~Trace accumulation or mist \|- \| 15 \| 0.3 \| 0.01 \| Trace accumulation ~~\| Mist~~ \|- \| 20 \| 0.6 \| 0.02 \| ~~Very~~Light ~~light~~rain \|- \| 25 \| 1.3 \| 0.05 \| Light rain \|- \| 30 \| 2.7 \| 0.10 \| Light to moderate rain \|- \| 35 Line 71 ⟶ 70: \| 11.53 \| 0.45 \| Moderate to heavy rain \|- \| 45 \| 23.7 \| 0.92 \| Heavy rain ~~\| Moderate to heavy~~ \|- \| 50 \| 48.6 \| 1.90 \| Heavy rain, small hail possible \|- \| 55 \| 100 \| 4 \| Very heavy~~/small~~ rain, hail possible. \|- \| 60 \| 205 \| 8 \| ~~Extreme/moderate~~Very heavy rain, hail likely. \|- \| 65 \| 421 \| 16.6 \| ~~Extreme/~~Very heavy rain, hail very likely, large hail possible. \|} {{clear}} Line 111 ⟶ 110: {{Meteorological equipment\|state=uncollapsed}} [[Category:Logarithmic scales of measurement]]▼ [[Category:Meteorological quantities]] [[Category:Radar meteorology]] [[Category:Units of meteorology measurement]] ▲[[Category:Logarithmic scales of measurement]]