Papeete PolynesiaPolynesia Papeete
is around 77°F, seldom below 74°F or above 79°F. On March 14th, the highest daytime mean is 77°F. On March 24th, the warmest of the year, Papeete's usual weather is between 77°F and 88°F, while on August 2nd, the colder part of the year, it is between 71°F and 83°F.
Mean maximum day (red line) and minimum day (blue line) with 25 to 75 and 10 to 90 percent ribbons. Thin dashed line is the corresponding mean observed heat. In the following illustration, a concise characterisation of the mean annual weather conditions for the month of March is shown.
Horiz. The horiz. axle is the tag, the vertic. axle is the hours of the days, and the colour is the mean temper. for that hours and that days. Mean hrs temp, colour encoded in bands: chilled < 15°F < freezed < 32°F < very chilled < 45°F < chilled < 55°F < chilled < 65°F < comfortably < 75°F < warmed < 85°F < heated < 95°F < stewed.
Salvador, Brazil (7,293 leagues away) is the farthest away overseas location with the temperature most similar to Papeete (see comparison). March in Papeete is a period of declining cloudiness, with the proportion of periods when the skies are clear or very clear falling from 72% to 63%. Most clear days of the months are 31 March, with clear, mostly clear or partially cloud yards in 37% of cases.
At Papeete, the probability of a damp morning decreases very quickly during March, from 36% to 25%. By comparison, the highest probability of a rainy diurnal is 53% on December 18 and the lowliest 10% on September 13.
In order to show the variations within the months and not only the sum of the months, we show the precipitation that has collected over a 31 days cycle, which revolves around each one. Averaging 31 days moving precipitation during March in Papeete is quickly declining, beginning the months at 4. 6 inch when it seldom rises above 10.
Ending 7-inch, and the series at 3. 3-inch if it seldom tops 6. Mean precipitation (solid line) collected over a moving interval of 31 days, centred on the relevant date, with 25 to 75 and 10 to 90. Thin dashed line is the corresponding mean fluid equivalents of snow.
In the course of March, the length of the Papeete days slowly diminishes. Between the beginning of the week and the end of the week, the length of the days is reduced by 30 min, which means an annual mean of 60 seconds and a 6- and 59-second reduction per week. March 31 is the briefest date of the months with 11 hrs, 56 min and the longest date is March 1 with 12 hrs, 26 min. of each.
This is the number of times the sun is seen (black line). Papeete's earlyest dawn of the months is 5:57 am on March 1 and the latest dawn is 7 mins later at 6:04 am on March 31. Last sundown is 6:23 pm on March 1st and early sundown is 23 min early at 6:00 pm on March 31st.
Summer season will not be respected in Papeete in 2018. On December 21, the longest of the year, the sun will rise at 5:21 am and set 13 hrs, 11 mins later at 6:31 pm, while on June 21, the shorter part of the year, it will rise at 6:27 am and set 11 hrs, 5 mins later at 5:32 pm.
A sunny march of the year. Contrary to the typical fluctuation between nights and days, the tendency is for the condensation point to vary more gradually so that the temperatures can decrease at nights, while a sultry and humid full moon is followed by a sultry one. In Papeete, the probability of a particular date becoming humid in March is substantially stable and remains at 100% throughout.
By way of comparison, on March 23, the sultriest of the year, there are 100% sultrier weather patterns, while on August 3, the sultriest of the year, 79% of the year. In this section the mean value of the windvector (speed and direction) at a height of 10 metres above the floor is discussed.
Winds at a given place are strongly influenced by geographic conditions and other variables, and the current windspeed and heading varies more than the hoursly mean. In Papeete, the mean windspeed per hours decreases in March, from 11. from 1 mile per hr to 10. four mph during the course of the months.
On 30 July, the most windy of the year, the mean windspeed is 12. averages 8 mph, while on April 5th, the quietest days of the year, the mean windspeed is 10 per night. Three-mile per hours. Averages of the mean windspeeds per hours (dark grey line), with 25 to 75 and 10 to 90 percent band.
Proportion of Hour in which the mean windspeed comes from each of the four main winds (North, East, S and W ), except when the mean windspeed is less than 1ph. Slightly toned areas at the borders are the percent of the number of hrs passed in the implicit intersections (northeast, sutheast, southwest und northwest).
The Papeete is situated near a large river (e.g. oceans, seas or large lakes). In this section, the mean shallow waters are reported. In Papeete, the mean freshwater temperatures are largely stable in March and remain around 84°F throughout. On 24 March, the highest mean freshwater temperatures in March are 84°F.
Diurnal mean diurnal watermarking ( "purple line"), with 25 to 75 and 10 to 90 centils. Vegetation cycle definition varies worldwide, but for the purpose of this document we have defined it as the longest uninterrupted non-icing cycle ( 32°F) in the year (the northern hemisphere or from July 1 to June 30 in the southern hemisphere).
Papeete's year round weather is so mild that it is not very informative to talk about the vegetation period. However, as an example of the way in which the year' s average annual average annual average body heat is distributed, we have included the following graph. Proportion of cooling period in different ranges: cooling < 15°F < freeze < 32°F < very low < 45°F < low < low < 55°F < low < low < 65°F < pleasant < 75°F < high < 85°F < high < 95°F < glowing.
Rising degrees day is a measurement of the annual storage of thermal energy used to forecast the evolution of plants and animals and is measured as the thermal integrity above a basic level, where surpluses above a peak level are discarded. Papeete's cumulative growth rate is rising very quickly in March, rising by 929°F from 7,092°F to 8,021°F during the course of the months.
In the course of March, the weighted number of growth dates cumulated to 25 to 75 and 10 to 90. In this section, all the short-wave sunlight entering the earth's atmosphere every morning reaches the earth's crust over a large area, taking full consideration of seasons, the height of the sun above the horizontal plane and its absorbance by the sun's ultra-sound.
In Papeete, the short-wave mean short-wave sun power per day is substantially stable in March and remains within 0.1 kilowatt-hours out of 5. Averages the short-wave short-wave sun power per day that reaches the floor per m2 (orange line), with 25 to 75 and 10 to 90 percent band. The geographic co-ordinates of Papeete for the purpose of this review are -17. 537 degrees lat., -149.
Papeete's 2 mile terrain contains very significant differences in altitude, with a peak alteration of 1,230 ft and an mean altitude above the seag. 159 ft. There are very significant differences in altitude within 10 mile ('7,336 feet). There are also extremely high differences within 50 Mile ('7,346 feet).
Area of Papeete is capped with 100% waters within 2 mile, 100% waters within 10 mile and 100% waters within 50 mile. The following article shows the average Papeete year round meteorological conditions, using a statistically accurate annual historic forecast and models from January 1, 1980 to December 31, 2016.
There' s only one meteorological data point in our database, Fa'a'? International Airport, which can be used as a protocol for Papeete's historic temperatures and dewpoints. Located 5 kilometres from Papeete, nearer than our 150 kilometre limit, this location is considered sufficiently close to be our main point of thermorecord.
Meteorological recordings are adjusted for the altitude differences between the observatory and Papeete according to the International Standard Atmosphere and for the changes that occurred in the re-analysis of the MERRA-2 satellites between the two sites. The other meteorological information, which includes clouds, rainfall, wind velocity and orientation, and sun flow, is taken from NASA's MERRA-2 Modern-Era Retrospective Analysis.
The re-analysis will combine a multitude of large-scale observations in a state-of-the-art satellite meteorology modell to recreate the hours' histories of the earth's climate on a 50-kilometer-raster.