Without the sun, life on Earth would never
have been able to flourish and the solar system
as we know it would not exist.
But the sun can also be deadly.
The radiation it emits is a leading cause
of cancer, it’s slowly cooking our planet
into a warmer and warmer place, and in a few
billion years’ time it’ll expand, scorch
and consume many of the worlds which orbit
it.
But, just how dangerous would it be if the
day/night cycle didn’t exist?
If we were never able to take a break from
our nearest star?
This is Unveiled, and today we’re answering
the extraordinary question; what if the sun
never went down?
Are you a fiend for facts?
Are you constantly curious?
Then why not subscribe to Unveiled for more
clips like this one?
And ring the bell for more fascinating content!
Plenty of objects in space experience tidal
locking, which is when one side is constantly
facing whatever celestial body that object
is orbiting.
The moon, for example, is tidally locked to
the Earth, meaning that the same side is always
looking down on us.
This doesn’t mean that the moon doesn’t
rotate, it does, just at the same speed as
it orbits the Earth, in what’s known as
“synchronous rotation.”
All of which means that there’s sometimes
some confusion over the far side of the moon.
It’s often referred to as the dark side
of the moon, but it isn’t in constant darkness.
It still turns to face the sun and turns away
again, it just never faces the Earth.
Still, because of how relatively slowly it
rotates, most of the moon sees a regular cycle
of two weeks of sunlight followed by two weeks
of darkness.
It’s one of many reasons why humans would
find it incredibly difficult to actually live
on the moon.
There are other moons tidally locked to their
planet elsewhere in the solar system, too.
Titan is locked to Saturn, for example, and
Pluto and Charon are locked to each other.
Mercury is the only planet tidally locked
to the sun, though, but it’s not at a 1:1
ratio… which means that even across the
Mercurian sky the sun does sometimes go down.
Elsewhere in the universe, it’s thought
that some red and white dwarf stars could
have tidally locked planets within their habitable
zones.
These planets would hypothetically host temperatures
suitable for life, it’s just that sunlight
would only ever reach fifty percent of their
surface.
Back on Earth, choosing a life where the sun
never goes down will probably never be an
option for us.
Though half of our planet is in light at any
given time, we can’t follow the sun across
the sky.
This is because daylight only lasts for twelve
hours on average here, but the fastest non-stop
flight around the world (accomplished by the
legendary pilot Steve Fossett in 2005) was
completed in sixty-seven hours.
That’s almost three full days, meaning multiple
periods of light and dark.
The closest we can get on Earth to constant
daylight, without changing something fundamental
about the way the planet works, is at either
the north or south pole.
Because of their extreme position, the poles
experience months-long periods of uninterrupted
sunshine... but even at both ends of the Earth,
night does eventually come.
So, scientifically speaking, the sun never
going down just isn’t possible here.
But what if it was.
What if, say, the Earth’s orbit were to
change, we became tidally locked to the sun,
and for whatever reason those on the sunny
side of the planet couldn’t escape it?
Right away, the biggest threat would be the
radiation.
Solar radiation is already incredibly dangerous
and is the leading cause of all skin cancers,
affecting hundreds of thousands of people
every year.
With no night to provide respite from the
sun, then, the cancer rates would certainly
surge.
Endless light would wreak havoc on our bodies
in other ways, too, not least our sleep patterns.
Countless studies have been carried out on
long-haul pilots and astronauts to determine
how their jobs affect their circadian rhythms,
but now everyone would be forced through an
even more extreme change.
In fact, the perpetual daylight would probably
become unbearable after just a few days.
One quite disturbing study, published in the
“Current Biology” journal in 2016, saw
mice subjected to six gruelling months of
constant light.
The mice got so stressed under these conditions
that they reportedly exhibited various symptoms
linked to a number of diseases, including
bone and muscle wastage.
The good news was that the effects were found
to be reversible… but if, in this hypothetical
world, the sun literally never went down,
then it’s hard to imagine that humanity
- or much of life at all - could survive in
such a place.
Physical sickness and mental strain could
well take hold before even the increase in
cancers became apparent.
It’s one of the reasons why astronauts on
the ISS keep a simulated day/night cycle:
because NASA knows how crucial our body clocks
are to how well we can function.
Of course, such a dramatic change wouldn’t
just be hard on humans, but hard on all animals
which rely on the fact the sun will rise and
set every day.
Without the cover of night, some animals wouldn’t
be able to hunt, and others wouldn’t be
able to hide.
Without the cooler temperatures at night,
many species would struggle to survive and,
over time, no doubt we’d see other species
adapt.
In much the same way as various creatures
live in permanent darkness on Earth as it
is - in caves, or at the bottom of the sea,
for example - we’d see animals physically
change to cope with the endless sun.
Constant sunlight would be especially devastating
for plants, too, many of which would burn
up very quickly… because even those which
are adjusted to hot climates, like cacti,
need the cool of the night.
All the world’s crops, then, would wither,
dry out and die… extreme desert conditions
would set in, and fires would spark at a moment’s
notice tearing through what remained of the
forests and woodland.
The situation does change somewhat if there’s
free movement between the light and dark sides
of an Earth that’s tidally locked to the
sun, however.
In this case, it would still be bad news for
plant life, which while being scorched and
dried out on one side of the world, would
wilt and die out on the other through lack
of sun.
For animals and humans, though, there’d
be the possibility of regular migrations from
the light into the dark and vice versa.
In this hypothetical scenario, it would be
best to form settlements all along the border
between the light and darkness… that way
you could move in and out of the sunlight,
to effectively create your own days.
Failing that, the best course of action would
be to head underground.
Or else to create sweeping shelters big and
thick enough to cast large areas of permanent
shade and to totally shield from radiation.
Inside caves and tunnels, we could simulate
a day/night cycle with artificial lights turned
on and off at set times.
Perhaps we could even grow plants and rear
livestock underground with the correct equipment.
In this case, vitamin supplements - to replace
the nutrients we now wouldn’t be getting
from the sun - would be vital, and UV lights
could mimic sunlight through the darkness.
It feels counterintuitive, but the best way
to deal with permanent sun could well be to
permanently avoid it.
Such an environment could ultimately breed
sprawling, subterranean cities, which would
be cooler, more controlled, and safer for
all.
If we couldn’t get under the Earth’s actual
surface, then we’d need to build a new layer
all around the planet - a worldwide roof,
of sorts, to provide life with the cover it
needs.
Whatever the case, it’s clear that this
is an alternate reality we should be glad
we’ll never get to see.
Everyone loves it when the sun comes out,
but it’s just as important that it always
sets.
Because that’s what would happen if the
sun never went down.
What do you think?
Is there anything we missed?
Let us know in the comments, check out these
other clips from Unveiled, and make sure you
subscribe and ring the bell for our latest
content.
