The sun is the most noticeable and significant
feature in our daytime sky.
And, despite it appearing fairly similar to
us most of the time, our view does actually
change throughout the year as the Earth orbits
at closer and farther distances from its host
star.
Still, those changes are nothing compared
to what we would experience if we could stand
and view the sun from every other planet in
the solar system.
This is Unveiled and today we’re answering
the extraordinary question; What does the
sun look like from other planets?
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The sun is so big that it can be difficult
to comprehend.
If we consider the combined mass of every
planet, moon and asteroid currently orbiting
the sun, well, the sun itself still accounts
for 99.8% of all the mass in the solar system.
Next to our central star, everything else
is frankly tiny.
Jupiter is by far our largest planet, but
even it is but a tiny speck in comparison
to the sun.
However, since the Earth is an average of
ninety-three million miles away from the sun
- what’s otherwise known as one Astronomical
Unit - that life-enabling orb of light usually
appears to us as no bigger than the moon.
And though we might forget it, the things
that we “know” about the sun - that it’s
yellowish in colour, it rises in the east
and sets in the west, and it provides the
perfect temperature for life - are not necessarily
true for the other planets.
So, let’s take a trip around the solar system
and see how the other worlds perceive it.
Mercury is the closest planet to the sun and,
so, as good a starting point as any.
The sun appears larger here than it does on
any other planet; its size in the sky is three
times as big as what we see here on Earth
because it’s only a third of the distance
away.
But its being closer also changes other properties
of the sun; on Mercury, our star is seven
times brighter than it is on Earth, for example.
Not only that, but because Mercury is unable
to hold an atmosphere, there isn’t a cloud
in sight to provide some sense of relief;
to give at least a little break from the constant,
beaming heat and energy.
For this same reason, the sun also appears
almost white from the surface of Mercury,
as close to its true colour as you’ll get
from any solar system planet.
What’s maybe most peculiar, though, is that
a single solar day on Mercury is 176 Earth
days, so you better get used to that bright
and never-ending sunlight.
And finally, the Mercurian sunrises and sunsets
are far from straightforward!
Thanks to the planet’s skewed orbit, the
sun appears and disappears at different points
in the sky…
A potential nightmare for anything trying
to navigate across the solar system’s innermost
inhabitant.
Mercury’s unfiltered view of the sun is
in stark contrast to Venus, though.
In fact, it would be hard to see the sun at
all from the surface of Venus (despite it
being closer to it than Earth is) due to the
always overcast sky and dense blanket of clouds.
The Venusian atmosphere is so stuffy it would
block out all view of the stars at night as
well!
However, pictures taken by probes suggest
that if the sun were visible from the surface
of Venus, it would appear distinctly orange
- again thanks to the planet’s thick atmosphere.
The sun would also rise in the west and set
in the east here, due to Venus’ retrograde
rotation - it spins in the opposite direction
to Earth.
All in all, though, the sun on Venus appears
mostly faint and unusually easy-to-miss.
We’ll bypass Earth because, well, we all
hopefully know what the sun looks like from
here… and move instead on to Mars - the
“other planet” we probably know most about.
Mars’ atmosphere is very thin, while the
planet itself is very dusty.
This combination actually means that the light
on Mars is easier spread… meaning the Martian
surface is quite a bright environment, despite
the sun being only 40 percent as luminous
there as it is on Earth.
The sun would also only appear around 60 percent
as large as it is on Earth, and because - with
such a weak atmosphere - there’s little
way for the Red Planet to retain heat, temperatures
average at minus-80 degrees Fahrenheit.
So, it’s bright on Mars, but also really
cold!
Perhaps most interestingly, though, thanks
to something called the Purkinje effect, the
sky immediately around the sun during a Martian
sunset or sunrise is blue, but a rosy, reddish
colour elsewhere… the exact opposite to
what we often see on Earth.
Watching a sunrise from Jupiter or any of
the other planets, however, is a different
matter entirely.
Since no images have actually been taken from
Jupiter’s interior, we can only hypothesize
what the sun would look like there.
That said, because the largest gas giant is
also a lot further away than Earth is, we
can calculate that the sun would only be about
a quarter of the size in its sky… and be
around 25 to 30 times fainter than here - perhaps
appearing blue-ish in colour.
That’s from the upper atmosphere, though;
if we were to venture further down, then the
sun would quickly be engulfed by Jupiter’s
multicoloured clouds.
Switching to Saturn, and even the sun begins
to take a back seat, as Saturn’s rings would
be the main focus in its sky.
The sun would be about 100 times dimmer from
Saturn and appear about 10 times smaller than
on Earth.
It would still be a fairly distinct feature,
though… and what would truly set the Saturn
view apart is that those massive rings would
also interact with light from the sun in interesting
ways, to create optical illusions like halos
and sundogs - a “sundog” being an effect
where two bright spots become visible on either
side of the sun, creating a kind of “triple
star” effect.
Uranus is so far from the sun - averaging
1.8 billion miles in its orbit - that it takes
more than two hours for the sun’s rays to
even reach the planet.
So if you were watching the sun from Uranus,
you would actually be seeing it as it was
two hours and 40 minutes ago.
At this distance, the sun is 19 times smaller
than on Earth and only provides one four-hundredth
the luminosity.
We are now a long, long way from home!
But, Neptune is further still, and from its
icy depths our sun would be thirty times smaller
than here, reducing it to just a prickle of
light in the sky.
Of all the planets, Neptune unsurprisingly
gets the least amount of light from the sun,
with it being an astounding 900 times dimmer.
By now, you really would have to search for
it!
Finally, although Pluto isn’t technically
a planet, we’ll take one last stop for all
the Pluto fans out there.
From this barren, faraway rock you would see
a sun that’s 40 times smaller and up to
1,500 times dimmer than on Earth.
At this distance it’s nothing more than
only a slightly larger than average star in
the sky.
Despite this, it would still outshine every
other light source and could still hurt to
look at directly - a testament to just how
powerful our nuclear fusion reactor in the
sky really is!
There’s no doubting that the sun is an essential
part of the sky, and its reach and influence
extends far beyond Earth…
And, although every planet has a quite different
view of its home star, they all orbit around
it and enjoy the light and stability that
it provides from its place in the centre of
our Solar System.
But that’s what the sun looks like from
other solar system planets.
What do you think?
Is there anything we missed?
Let us know in the comments, check out these
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