What if Saturn Lost Control of its Rings?
In 1610, Galileo became the first person to
study the skies and determine that the gas
giant Saturn was surrounded by a strange,
anomalous shape.
Centuries later, we know that that shape is
a set of enormous rings, a characteristic
making Saturn one of the most unique planets
in our solar system.
But beautiful as they are, nothing lasts forever.
This is Unveiled, and today we’re answering
the extraordinary question; what if Saturn
lost control of its rings?
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You may wonder why Saturn has rings at all?
What makes it so special?
Well, any planet, or any object with powerful
enough gravity could theoretically have similarly
large ring formations.
The likes of Uranus and Neptune have smaller
ringlets today and some of Saturn’s own
satellites - particularly Rhea - are also
thought to have rings of their own.
But even the experts aren’t one-hundred-percent
sure on how Saturn got its rings in the first
place…
The most popular theories suggest that Saturn
once had large, icy moons that collided with
each other to form the streams of debris we
see today; while others argue that they’re
actually remnants of ancient comets or dwarf
planets.
In this way, something similar could happen
to Earth.
Say an asteroid crashed into the moon and
was big enough to destroy it; the fragments
could then circle our planet – though, should
this ever happen, the fate of humanity doesn’t
look good.
More surprising than the fact we’re not
sure how Saturn’s rings were made is that
the planet is actually losing them at an alarming
rate.
As part of their epic journeys, the Voyager
space probes discovered a phenomenon called
“ring rain,” where the particles of ice
that make up the rings are being vaporised
by UV radiation and tiny meteorites.
When this happens, the electrically charged
water particles interact with Saturn’s magnetic
field and plunge down toward the surface.
When it was first noticed in the 1980s, scientists
suggested that Saturn’s rings only had around
300 million years left to live - not that
long in the grand scheme of a 14-billion-year
universe.
But, the truth of Saturn’s situation got
even harsher when the Cassini space probe
more recently discovered that the ring rain
is happening much faster than expected.
According to Cassini readings, Saturn is being
bombarded with 6,000 lbs of rain every second,
and the rings will’ve gone completely in
100 million years’ time.
So, it’s inevitable that one day Saturn
will be stripped of its defining feature.
But what if it lost control of its rings the
other way?
Rather than ring particles destroying themselves
and falling inwards to their own planet, let’s
imagine that some catastrophic event destabilises
Saturn’s gravity so much that the rings
break apart and fly out into the solar system.
Well, in terms of simply the amount of matter
we’re dealing with, it’s not all bad.
Saturn’s rings are made of 99% ice, with
just a small amount of rock mixed in.
The total mass of the rings was estimated
by Cassini toward the end of its mission…
and, despite how iconic and visible the rings
seem, they only truly equate to 40% of the
mass of Mimas, the smallest of all Saturn’s
moons.
In effect, the rings are 4,700 times smaller
than the Earth’s moon, as they’re mostly
made up of empty space.
The icy particles themselves wouldn’t pose
a huge risk, either.
They range in size from as small as 1 centimetre
across, to upwards of ten metres at their
largest.
Yes, those particles are constantly fighting
against the pull of Saturn’s gravity, wanting
to escape and fly off into outer space…
but they just aren’t that dangerous, and
certainly not for Earth.
Should even one of the largest balls of ice
from Saturn’s rings come hurtling towards
us, it’d just burn up and evaporate in our
atmosphere because Earth is a much, much warmer
prospect.
Even if Saturn’s rings were ejected all
at once, with all of them beelining straight
for Earth, we wouldn’t have much to fear.
Though the particles are enough to produce
6,000 lbs of cosmic, potentially destructive
ring rain on Saturn, we’d simply witness
an unusual phenomenon where asteroids literally
did rain down upon us, only without the everlasting
damage.
In fact, the spectacle probably wouldn’t
look all that different to a regular storm.
Of course, the idea that Saturn’s rings
could somehow “take aim” at Earth is completely
hypothetical.
Everything in the solar system is generally
caught between the orbits of the two largest
objects: the sun and Jupiter.
Saturn’s orbit is right next to Jupiter’s,
so the most likely scenario sees those icy
particles (though now free from Saturn) too
disrupted by the largest gas giant to even
begin heading past it towards the sun or any
of the inner planets.
Instead, the rings could wind up pulled into
Jupiter, causing yet another version of ring
rain - only this time much closer to the type
that Saturn’s currently experiencing.
Say Saturn’s errant particles managed to
evade Jupiter, they’d next be incorporated
into the asteroid belt - a vast band of mass
that essentially exists because Jupiter’s
gravity prevents the rocky material inside
from forming a true terrestrial planet.
But, the asteroid belt also mostly consists
of empty space, and there isn’t actually
enough material to create a sizeable world
of any kind.
Right now, more than half of the belt’s
total mass is made up of its four largest
objects – the dwarf planet Ceres, and the
asteroids Pallas, Vesta and Hygiea.
Throw Saturn’s rings into the equation and,
though they would make a small difference,
it wouldn’t be dramatic (or even noticeable).
More likely than anything else, though, is
that the ring rain would simply fall much
closer to its original home - on one of Saturn’s
many moons, including Titan or Enceladus.
The rings would, in effect, be absorbed by
the largest other objects circling Saturn.
And from here, there’s the real prospect
of a “ring renaissance” in the future.
Most of Saturn’s moons are either made entirely
of ice or have a thick covering of it on their
surface, which means - even when today’s
rings eventually disappear - we’d be just
one or two cosmic collisions away from the
same thing happening again.
In fact, the same is true for any planet with
moons.
So, should the rings of Saturn go rogue, there
actually wouldn’t be a whole lot to worry
about.
It’s not an event that would destabilise
the solar system and bring about total destruction.
But, if the remnants somehow made their way
to Earth, it’d briefly and brilliantly light
up the sky… before settling down into a
planetary system where those iconic bands
no longer exist.
And that’s what would happen if Saturn lost
control of its rings.
What do you think?
Is there anything we missed?
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