NASA Science News home |
|
"There is nothing in the whole of Nature to rival
the glory of a total eclipse of the Sun."
This year's total eclipse on August 11, 1999 could be even better than usual, thanks to the solar maximum. Every 11 years the sun undergoes a period of heightened activity. There are frequent solar flares, lots of sunspots, and the corona expands to many times its average size. The August 11 solar eclipse will take place just 9 months before the predicted maximum in mid-2000. Even now the Sun is very active, raising expectations for an unusually beautiful eclipse. Seeing the SightsMost eclipse watchers consider the corona to be the most beautiful
of all the phenomena of totality. The super-hot outer atmosphere
of the sun glows with the intensity of the full moon when the
sun's disk is completely occulted. Pearly white coronal streamers
sometimes stretch several degrees across the sky during eclipses
near a solar maximum. Second only to the corona for dramatic impact, by some accounts, is the Moon's shadow. As totality approaches the shadow can be seen sweeping across the landscape at over 1000 miles per hour. According to Michael Maunder and Patrick Moore, in their book The Sun in Eclipse, "It...gives the impression of a vast dark cloak rushing toward you and then enveloping you: the general effect can only be described as eerie." Sometimes, as the Moon's shadow approaches, "shadow bands" can be seen. These are poorly understood, wavy lines of alternating shadow and light somewhat like the ripples on the bottom of a swimming pool. The swift arrival of the Moon's shadow transforms the landscape. The darkness of totality resembles nighttime, and plants and animals react accordingly. Birds stop singing and may go to roost. Daytime flower blossoms begin to close as if for the night. The temperature drops in the coolness of the Moon's shadow. All of Nature seems to pause for this brief moment of daytime darkness. There is a special quality to the darkness of a total eclipse. The sky near the horizon still appears bright, and this distant scattered light produces a slight reddish glow and unusual shadow effects. Because the direct light of the Sun is blocked, some of the brighter stars and planets become visible. Because this year's eclipse occurs just one day before the peak of the Perseid meteor shower, sky watchers may also see some rare daytime meteors. The duration
of totality varies depending on the eclipse and the viewing site.
On August 11, 1999, the maximum duration will be 2 minutes 22
seconds for observers in south-central Romania. One of the longest
eclipses on record will take place in 2009
when the "moment" of totality will endure for over
6 minutes as seen from a spot in the Pacific Ocean. It's beautiful, but is it good for anything?
Today, with space telescopes and modern coronagraphs it is sometimes thought that eclipses have little to offer in the way of science. This is not so. To limit the scattering of sunlight, space-borne coronagraphs have had to block out the inner corona, and ground-based observations of the corona (excluding eclipses) cannot see the corona very far from the Sun. The Moon is still Nature's greatest coronagraph! Eclipses are also unbeatable ways to precisely measure the Sun's diameter. Members of the IOTA routinely travel to solar eclipses which they observe near the edge of the path of totality. By stretching a team of observers perpendicular to the expected edge of the shadow's path they are able to measure the location of the edge with a precision to less than 100 meters. This translates into a measurement of the Sun's diameter with a precision of only 0.004 arcseconds, or 20 miles. According to such measurements, the Sun may have been 0.4 arcseconds larger in 1983 than it was in 1979. Is the Sun oscillating? It's too soon to say. Some of the eclipse measurements are controversial, and more data are needed. IOTA members will be on hand for the August 11, 1999 eclipse and they intend to continue their work during future eclipses as well. Some of the most fascinating eclipse research has nothing to do with astronomy. Biologists and zoologists sometimes use eclipses to study the circadian rhythms of living creatures. Between 1954 and 1975, two Polish zoologists, R. Wojtusiak and Z. Majlert, conducted a unique set of experiments in which they observed the behavior of mammals, birds, and insects during seven eclipses with varying degrees of coverage, including totality. They discovered that the daily habits of mammals were little affected by the eclipse, but that birds and especially insects were influenced. Under the Moon's shadow, many species of birds manifested anxiety and roosting behavior, and nearly all birds stopped singing (which contributes to the oft-noted quietude of totality). Insects are affected even more. During eclipses studied by the Polish team, bees returned to their hives en mass, nocturnal moths appeared, and butterflies settled in the grass as though it were night. The most sensitive species, bees, have been observed to return to their hives during partial eclipses covering only 19% of the Sun! Other biologists have followed the ground-breaking experiments of the Polish team with observations that confirm the influence of eclipses on the behavior of birds, insects, and even nematodes and plankton! More information about these studies can be found in J.B. Zirker's book, Total Eclipses of the Sun. There are many other research applications of solar eclipses, including global gravity measurements, investigations of ionization and radio propagation in Earth's atmosphere and studies of asteroid dust and cometary debris in the innermost solar system. The full range of research opportunities presented by a solar eclipse is too broad to review here. Suffice it to say that solar eclipses promise great value to scientific research for many, many years to come. Eclipses on other planetsIf the Moon were slightly smaller than the Sun, the best eclipses
would be annular ones with no dramatic corona or blackening of
the daytime sky. If the Moon were slightly larger, the full glory
of the chromosphere and prominences surrounded by the glowing
corona would be lost. Fortunately, the Moon is "just right."
Left: A total solar eclipse, with the Sun's corona, clearly visible surrounding the Moon. This picture is a composite of differently exposed photos of an eclipse that occurred on July 11, 1991. Credit: Steve Albers, Dennis di Cicco (Sky & Telescope Magazine), Gary Emerson (E. E. Barnard Obs.) Copyright: Steve Albers. Image courtesy Astronomy Picture Of the Day. It has often been asked if the similarity of the Moon's and
Sun's diameters can be simple coincidence. In the absence of
more data about the statistical distribution of sizes of stars,
planets, and moons in solar systems other than our own, it would
seem that the most likely answer is "yes." Nevertheless,
it is a fortunate coincidence for the denizens of Earth. |
|
Audio eclipse may fill the sky - August 4, 1999 story on investigations of ionization and radio propagation in Earth's atmosphere during the eclipse Peering through a Hole in the Sky - June 17, 1999 story on exotic gravity measurements to be carried out during the eclipse The Millennium's Last Solar Eclipse -- from Sky &Telescope Solar Eclipse Home Page -- at the NASA/Goddard Space Flight Center References Total Eclipses of the Sun, J.B. Zirker, 1995, Princeton University Press The Sun in Eclipse, Michael Maunder and Patrick Moore, 1998, Springer-Verlag Totality: Eclipses of the Sun, Mark Littmann, Ken Willcox and Fred Espanek, 1999, Oxford University Press |
Join our growing list of subscribers - sign up for our express news delivery and you will receive a mail message every time we post a new story!!! return to Space Science News Home
|