EFFECTS OF TOTAL ECLIPSE OF THE SUN IN NOVEMBER 12 th , 1966 IN BAGÉ ( RS ) , BRAZIL , ON THE METEOROLOGICAL PARAMETERS

This work presents the evaluation of the thermal sensitivity index and global radiation during the total eclipse of the sun on November 12th, 1966, in the city of Bagé, RS, Brazil, located in the central line of the totality range of the eclipse. Temperature (oC), relative air humidity (%), cloudiness and wind speed were acquired in the international airport of the city for the calculation of the resultant temperature index by using Missenard’s method (1948). Global radiation data was obtained from Eppley spectral radiometer. The results showed a variation in thermal sensation, due to the decreased global radiation and corresponding decreased temperature and increased relative humidity during the eclipse.


INTRODUCTION
In astronomy, eclipse refers to the partial or total obscuration of a celestial body due to the interposition of another.When a new moon is in perfect alignment with the Earth and the sun, it projects a cone of shadow that can reach regions of the terrestrial surface, completely or partially eclipsing the sun.Therefore, there will be an eclipse of sun over these regions.The fact that the sun and the moon present almost the same apparent diameter (about half a degree), and being the eclipse of the sun caused by the projection of lunar shadow on Earth, this phenomenon is impossible to be seen at the same time from all points of the globe.
Due to the centering of the axis of the conelike shadow, the solar eclipse can be partial, total, or even annular -i.e., when the lunar diameter is DOI: 10.33958/revig.v39i3.603inferior to the one of the sun at that moment.A total solar eclipse can last up to 7 minutes during its peak (total darkening).
The occurrence of a total solar eclipse is a relatively rare phenomenon due to the moon and Earth movements in their orbit and inclinations.Despite the wide extension of the Brazilian territory, the occurrence of this phenomenon is quite rare, governed by the Saros period, with cyclicity of 18 years and 11 days.However, there are deviations due to the Earth-moon distance and the revolution of the moon around the Earth in an elliptical orbit.
Observing a total solar eclipse for science is a fundamental condition for getting to know it as a star that provides us with energy.For solar physics, it is important for studies of the solar corona (outer region of the sun where temperature reaches one million degrees), which is only possible during a total solar eclipse.Another fact is the so-called "Einstein Effect", which consists of the deviation of the visible rays of stars during the totality of the phenomenon, proving Einstein's theory of relativity by means of the deviation of light by a gravitational field.HARRISON & HANA (2016) cite several meteorological observations that can be performed during total eclipses of the sun.
Another important fact is its effect on living things.During the whole eclipse, birds "gather to sleep" and, in some cases, even die of fright -fact described by Riccioli in 1560 on the eclipse of the 7 th of June of 1415 in Bohemia (FLAMMARION 1937).Besides that, bats fly as if it were night, and load animals and cattle sleep.Humans feel a cold sensation due to the gradual fall of solar radiation and consequent decreased temperature and increased relative humidity.In addition, people feel fear and joy after the completion of the totality of the eclipse (FLAMMARION 1937, BEDAQUE & TRAVNIK 1992, FUNARI 2005).
Although few papers have dealt with the thermal sensation during an eclipse phenomenon, an experiment addressing such features was carried out in Chapecó (SC), Brazil, during the total eclipse of the sun in November 3 rd , 1994 (FUNARI 2005).
The objective of the present study was to evaluate the modifications on air temperature (ºC), relative humidity (%), global radiation (W m -2 ), wind (m s -1 ) and cloud cover (tenths of covered sky) during the total eclipse of the sun in November 12 th , 1966 in Bagé (RS), Brazil.From these meteorological parameters, the resultant temperature (RT) was calculated using the MISSENARD equation ( 1948).

ECLIPSE PARAMETERS
The total solar eclipse in November 12 th , 1966 had a total range of 40 to 85 km wide, beginning in the Pacific Ocean, crossing the South American continent from Lima (Peru) to the extreme south of Brazil, following the Atlantic Ocean to completion in southern Africa.It was verified that the part of the totality band that passed through Brazil was in the south of the state of Rio Grande do Sul (Figure 1).On November 12 th , 1966, the angular diameter of the moon was 32'32", and the sun's was 32'19", resulting in a difference of 13" between these diameters.At its totality band in Brazil, the entire eclipse would last from 1'51" to 1'57", with the sun at 65 to 70° above the horizon.The ephemeris and eclipse phases were recorded at Brazilian time zone (UTC -3 h) (Table 1).

MATERIAL AND METHODS
Bagé (Rio Grande do Sul state, south of Brazil), located at the eclipse's center of range during its totality, was chosen for the FIGURE 1 -The map depicts the geographic regions of the eclipse visibility -November 12 th , 1966 (Source: available at: <http://www.eclipsewise.com/solar>.Fred Espenak.Accessed on: September 12 th , 2018).The total eclipse could be observed in Peru, Chile, Bolivia, Argentina, Uruguay, and Brazil.meteorological observations.Other Brazilian and international institutions had also chosen this city, located at 200 m of altitude, 200 km distant from the Atlantic Ocean, at the coordinates: latitude 31°19'51" S, longitude 54°06'25" W. It is located in a region known as gaúcho campaign, with low hills covered predominantly by natural grasslands (pampas) and subordinately by Araucaria angustifolia forest.Since that period, wheat and livestock farming are the predominant land use in this region.
According to Köeppen, the climate is classified as Cfa (subtropical).Bagé has an annual mean temperature of 23.8°C, average annual global radiation of 181.4 W m -2 , average precipitation of 1,367.4mm, average annual relative humidity at 73%, and the predominant wind is to the eastern direction.It has two well defined seasons (cold and hot), with similar or even higher temperatures than tropical regions, which favor the formation of rain clouds.Precipitations are generated by the interaction between Polar Atlantic and Tropical Continental air masses.
The meteorological observations on the day of the eclipse were obtained by Paulo Marques dos Santos and Rogério Carvalho de Godoy in a reserved place in the Bagé Airport area, located at: 31°22'S and 54°07'W, at an altitude of 181.32 m.
Air temperature (°C) and relative humidity (%) parameters were acquired every 10 minutes from 9 to 13 h ST using an Assmann-Fuess electrical aspiration psychrometer.At the same intervals, global radiation data were obtained using a radiometer Eppley model 15, and recorded in a Bristol's potentiograph.The values were corrected by the manufacturer's constant (K = reading * 0.4).It should be noted that the instruments available at that time did not have the same technology as current digital ones.However, this did not invalidate the data, since the instruments have great precision and some of them are still in use.
The cloudiness and general conditions of the weather were assessed during psychrometric observation hours.Observations during the course of the eclipse were complemented by those obtained from the Brazilian Air Force: the direction and speed of the wind and height of the clouds.Horizontal visibility was 20 km through the eclipse.
Equation 1 allows to calculate the RT, which can be used to evaluate the thermal sensation (comfort/discomfort) index for humans.The RT can be calculated without the influence of wind, whose speed during the course of the eclipse was an average of 2.6 m s -1 (9.4 km h -1 ), considered light breeze on the Beaufort scale.In this case, the wind did not influence the RT, since speed becomes significant at 3.0 m s -1 .RT values are very similar to the thermal sensitivity index (TSI) ones (FUNARI 2006), when the influence of the wind is negligible.RT values were compared to the thermal sensation classes (Table 2) established by FUNARI (2006).

RESULTS AND DISCUSSION
During the eclipse, there was a decrease in air temperature, with consequent increase of the relative humidity.It resulted from the reduced direct radiation flux caused by the eclipse (Table 3, Figure 2).
The decrease of the temperature (3.0°C) was not higher due to the presence of cirrus clouds at the totality and also of altocumulus and fractocumulus during the entire period of the eclipse, taking up 6/10 of sky.
Relative humidity increased by 8% during the eclipse.The decrease in the RT was 2.4°C, resulting from the RT difference of 9h40 ST (17.7°C) -before the eclipse -and 11h06 ST (15.3°C) at the end of its totality.This reduction   (IAG, 1965).
in the RT was described by observers as a mild cold sensation, physiological response of slight cooling (class 5 of Table 2).Table 3 and figure 2 show the effects of the eclipse on the meteorological parameters -global radiation reaching 0.0 W m -2 due to the total hiding of the solar disk by the lunar one (magnitude = 1.024 lunar disk).The total of radiation recorded on the day of eclipse was 309.6 W m -2 .In the following day (November 13 th , 1966), with similar meteorological characteristics, the total radiation was of 325.3 W m -2 .On November 14 th , 1966, when the sky presented a few clouds, global solar radiation totalized 361.0 W m -2 .Thus, the eclipse observed in Bagé promoted an approximate reduction of 4.8% of the total daily global radiation.
The decrease in air temperature (°C) and consequent increase in relative humidity (%), which influenced the RT, are shown in table 3 and figure 2.
Table 4 illustrates the decrease of air temperature and RT/TSI during other total solar eclipses around the world.The decrease of temperature (ΔT) in Bagé was similar than the ones measured in other parts of the world (2.0 -6.7°C).The total eclipses of 1966 (Bagé) and 1994 (Chapecó) had different durations of totality -the former had the duration of 117 seconds and the latter 230 seconds.There was slight cloudiness (cirrus and altocumulus) in Bagé, whereas the sky remained clear in Chapecó; these factors could have possibly influenced RT/TSI values.

CONCLUSIONS
The following conclusions can be drawn based on the meteorological observations of the total eclipse of the sun in Bagé on November 12 th , 1966: • There was a decrease in air temperature and an increase in relative humidity due to the reduction of global radiation values during total eclipse.These values were not higher due to the presence of clouds of the cirrus genus during the totality; • The reduction of air temperature during the eclipse was 3.0°C, and the relative humidity increased 8%; • The decrease in RT was 2.4°C, which caused a slight cold sensation according to the thermal sensation classes established by FUNARI (2006); • The weather type of the days after the solar eclipse shows similarity with the day of the eclipse (November, 12 th ).However, the amount of global radiation on the day of the eclipse was inferior than the subsequent days.

TABLE 4 -
Data of air temperature and thermal sensitivity index (TSI), during other solar eclipses.