20 February 2021 | New Scientist | 51The back pages
SHUTTERSTOCK/ASTROSTARThese articles are
posted each week at
newscientist.com/makerAbigail Beall is a science writer
in Leeds, UK. She is the author
of The Art of Urban Astronomy
@abbybeall
What you need
Clear night skies
A telescope (optional)
Any good astronomy
app (optional)
OVER the course of a year, the
sun traces a path in the sky. This
invisible line, called the ecliptic,
isn’t created by the sun moving,
but instead by Earth travelling
around the sun.
The solar system’s planets all
orbit in a similar plane to Earth
as it circles the sun – the biggest
difference is Mercury, which
is out by about 7 degrees. This
means they can all be seen along
the ecliptic in the night sky. The
ecliptic is also where the zodiacal
constellations are found and
where eclipses occur, all of which
make it one of astronomy’s most
important features.
The moon doesn’t orbit exactly
on the ecliptic. If it did, we would
have a solar eclipse and a lunar
eclipse every month. Instead,
its orbit is angled at around
5 degrees compared with Earth’s
around the sun. Eclipses occur
when the moon crosses the
ecliptic at a full or new moon.
Even though the planets’ orbits
don’t line up exactly with the orbit
of Earth, they can, like the moon,
generally be used to gauge exactly
where the ecliptic is in the sky.
On any night when you can see a
planet or two and the moon, you
can trace the line of the ecliptic.
At the moment, we can do it by
watching the movement of Mars
and the moon for a few days.
Mars and the moon are in
conjunction on 18 February, with
only 3 degrees separating them in
the sky. This is about the same as
the width of Orion’s belt. After this
date, the two move further and
further apart, largely because ofWant an easy way to locate the planets or find out where an
eclipse is likely to happen? Abigail Beall has the lowdownStargazing at home
How to find the ecliptic
the motion of the moon. This
gives us a great opportunity
to look at the ecliptic.
If you want to take part,
pick a time in the 4 or 5 hours
after sunset, not before sunrise.
Try to look at the stars at around
the same time each night for
at least three days between
18 and 27 February.
Once you are set, go out and
search for Mars, which will be in
the south-west in the northern
hemisphere and in the north-west
in the southern hemisphere. It will
be bright with a glowing red hue.
If you are uncertain, use an app to
ensure you have the right target.
Next, find the moon. On
20 February, Mars and the moon
should still be close together. As
the nights go on, the moon will
appear further to the east, and bythe end of^ this period, it will be
low in the eastern horizon just
after sunset. Mars will move much
more gradually, so can be used
to remind you where you saw
the moon on the first evening.
The line that the moon has traced
across the sky over these nights
is the ecliptic.
At the moment, you can only
use the positions of Mars and
the moon in the sky to find the
ecliptic, but you can observe it
on most nights if you can spot
a planet or the moon. During the
day, it is easier to find it, of course:
you just have to watch the sun.
But remember, whatever you
do, don’t look directly at it. ❚Feedback
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