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An account already exists for this email address, please log in. Subscribe to our newsletter The forces of light and dark are basically equal at this moment on Earth during the equinox. (Image credit: NOAA; NOAA Environmental Visualization Laboratory)
Today (March 20) at 10:46 a.m. Eastern Daylight Time (7:46 a.m. Pacific Daylight Time) the vernal or spring equinox occurs. At that moment, the sun comes to one of two places where its rays shine directly down on the equator. It will then shine equally on both halves of the Earth. More precisely, at that moment, the sun will be shining directly down on the equator at a point over the Atlantic Ocean, roughly 790 miles (1,280 kilometers) east of Macapá, Brazil.
From the years 1980 through 2102, it comes no later than March 20. In 2028, in fact, for the Western Hemisphere, spring will officially begin on March 19. This shift in dates happens because the Earth's elliptical orbit doesn't match our calendar perfectly. The vagaries of our Gregorian calendar, such as the inclusion of a leap day in century years divisible by 400, also help contribute to the seasonal date shift. Had the year 2000 not been a leap year, the equinox would be occurring this year on Saturday (March 21), not Friday.
Article continues belowNot "equal" on the equinox!
Another complexity involving the vernal equinox concerns the axiom, "equal days and equal nights on the equinox." Yet each year, I always get at least one or two inquiries asking why that isn't so. Perhaps someone skimming through the weather page of their newspaper on the day of the equinox, looked at the almanac box which provides the local time of sunrise and sunset and noticed that the length of day and night is not equal at all. In fact, on the equinox dates in both March and September, the length of daylight is actually longer than darkness by several minutes.
Check out the situation for Pittsburgh. As the table below shows, days and nights are equal not on the equinox, but on Saint Patrick's Day:
Swipe to scroll horizontallyDate
Sunrise
Sunset
Length of day
March 17
7:28 a.m.
7:28 p.m.
12 hr. 00 min.
March 18
7:26 a.m.
7:30 p.m.
12 hr. 04 min.
March 19
7:24 a.m.
7:31 p.m.
12 hr. 07 min.
March 20
7:23 a.m.
7:32 p.m.
12 hr. 09 min.
One factor to consider is that when we refer to sunrise and sunset, it refers to when the very top edge of the sun appears on the horizon. Not its center, nor its bottom edge.
This fact alone would make the time of sunrise and sunset a little more than 12 hours apart on the equinox days. The sun's apparent diameter is roughly equal to half a degree.
Get the Space.com NewsletterContact me with news and offers from other Future brandsReceive email from us on behalf of our trusted partners or sponsorsEarth's seasons diagram. (Image credit: NASA/Space Place)
But the main reason that this happens is due to our atmosphere; it acts like a lens and refracts (bends) its light above the edge of the horizon. In their calculations of sunrise and sunset times, the U.S. Naval Observatory routinely uses 34 arc minutes for the angle of refraction and 16 arc minutes for the semi/half diameter of the sun's disc. In other words, the geometric center of the sun is more than eight-tenths of a degree below a flat and unobstructed horizon at the moment of sunrise.
As a result, we end up seeing the sun for a few minutes before its disk actually rises and for a few minutes after it has actually set. So, you can thank our atmosphere for making our days a bit longer; the length of daylight on any given day is increased by approximately six or seven minutes.
So . . . when you watch the sun either coming up above the horizon at sunrise or going down below the horizon at sunset, you are looking at an illusion — the sun is not really there but is actually below the horizon!
Now you see it . . . when you don't!
Joe Rao serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for Natural History magazine, Sky and Telescope, The Old Farmer's Almanac and other publications.
Joe RaoSkywatching ColumnistJoe Rao is Space.com's skywatching columnist, as well as a veteran meteorologist and eclipse chaser who also serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for Natural History magazine, Sky & Telescope and other publications. Joe is an 8-time Emmy-nominated meteorologist who served the Putnam Valley region of New York for over 21 years. You can find him on Twitter and YouTube tracking lunar and solar eclipses, meteor showers and more. To find out Joe's latest project, visit him on Twitter.
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