What
Is A Solar Eclipse?
A solar eclipse is a natural event that takes place
on Earth when the Moon moves in its orbit between Earth and the Sun (this
is also known as an occultation). It happens at New Moon, when the Sun and Moon
are in conjunction with each other. If the Moon was only slightly closer to
Earth, and orbited in the same plane and its orbit was circular, we would see
eclipses each month. The lunar orbit is elliptical and tilted with respect to
Earth’s orbit, so we can only see up to 5 eclipses per year. Depending on the
geometry of the Sun, Moon and Earth, the Sun can be totally blocked, or it can
be partially blocked.
During an eclipse, the Moon’s shadow (which is
divided into two parts: the dark umbra and the lighter penumbra) moves across
Earth’s surface. Safety note: do NOT ever look at the Sun directly during an
eclipse unless it is during a total solar eclipse. The bright light of the Sun
can damage your eyes very quickly.
Solar Eclipse Types
TOTAL SOLAR ECLIPSE
A total solar eclipse occurs when the Moon
completely blocks the solar disk. In a total solar eclipse, the narrowest part
of the path (where the Sun is completely blocked and the Moon casts its darkest
shadow (called the umbra)) is called the “zone of totality”.
Observers in this path see a darkened Sun (often
described as a “hole in the sky”) with the ghostly glow of the solar corona
extending out to space. A phenomenon called “Bailey’s Beads” often appears as
sunlight shines out through valleys on the lunar surface. If the Sun is active,
observers can also see solar prominences, loops, and flares during totality. A
total solar eclipse is the ONLY time when it is safe to look directly at the
Sun. ALL other solar observations (even in partial phases) require special
solar filters so that you do not harm your eyes.
Total solar eclipses have not always been visible
from Earth. In the past, the Moon was too close to Earth and during eclipses it
completely blotted out the Sun’s disk. Over time, the lunar orbit has changed
at the rate of just over 2 cm per year and in the current epoch, the alignment
is nearly perfect at times. However, the Moon’s orbit will continue to widen,
and in perhaps 600 million years, total solar eclipses will no longer occur.
Instead, future observers will see partial and annular eclipses only.
ANNULAR SOLAR ECLIPSE
Not every solar eclipse is a total one. When the Moon
is farther away in its orbit than usual, it appears too small to completely
cover the Sun’s disk. During such an event, a bright ring of sunlight shines
around the Moon. This type of eclipse is a called an “annular” eclipse. It
comes from the Latin word “annulus” which means “ring”.
The period of annularity during such an eclipse can
last anywhere from 5 or 6 minutes to up to 12 minutes. However, even though the
Sun is mostly covered by the Moon, enough bright sunlight escapes during
annularity that observers cannot ever look at the Sun directly. These events
require eye protection throughout the entire eclipse.
PARTIAL SOLAR ECLIPSE
A partial solar eclipse occurs when Earth moves
through the lunar penumbra (the lighter part of the Moon’s shadow) as the Moon
moves between Earth and the Sun. The Moon does not block the entire solar disk,
as seen from Earth. Depending on your location during a partial eclipse, you
might see anything from a small sliver of the Sun being blotted out to a nearly
total eclipse.
To view any eclipse safely, use approved filters or
use an indirect method of viewing, such as projecting sunlight through a
telescope and onto a white piece of paper or cardboard. NEVER look at the Sun
through a telescope unless it has the appropriate filter. Blindness and severe
eye damage can result due to improper observation technique.
0 comments:
Post a Comment