At 12:00 Noon Eastern Time on 3/20/2010, the sun's declination was -0.025 degree.
6:40 pm
The declination of the constellation Gemini is +20.
March 20 2010 was a Saturday.
March 20, 2010 is 13 days away as of March 7, 2010
At 0000 UT (Greenwich) on March 8 2016, the sun's declination will be -4.7997°.24 hours later, at 2400 UT on March 8, the sun's declination will be -4.4088°.So the sun will move from 4.7997°S to 4.4088°S latitude during the 24 hoursof March 8, 2016 in the Greenwich time zone.With the software I'm getting these numbers from, it looks like the sun willcross the equator and end Winter/begin Spring in the northern hemisphereat 0521 UT on March 20.A few days before that, when it starts showing up on the newspaper's weather page,I guess I'll find out if this software is worth anything.
In march or february, go to http://www.thesunrisetimes.com/West_Coast_US/Santa_Barbara,_California_.aspx
Right ascension: 8-15 h Declination: −20°
Corvus the Crow is centered roughly on -20 degrees in Declination.
Apt1B - 2010 Noises Off 2-5 was released on: USA: 20 March 2010 USA: 20 March 2010 USA: 20 March 2011
Right ascension: 21 h Declination: −20°
The Lonely Sun - 2010 was released on: USA: 20 June 2010
First, we need the "transit altitude" of the celestial equator, at 80 degrees north. That's 90 - 80 degrees = 10 degrees. At noon (local apparent noon) the Sun's altitude will be: 10 degrees + the Sun's declination. That's the altitude of the Sun's "upper culmination". At "midnight" (the Sun's "lower culmination") the Sun's altitude will be: the Sun's declination - 10 degrees. So, the difference in altitude is 20 degrees. The Sun is 20 degrees higher at noon.