This selection of some of the most mind-boggling facts about our cosmos takes a bite-sized look at our intriguing planet, Moon, Solar System, Galaxy and Universe.<\/p>
And if you’d like more space oddities, read our guides to the weirdest stars<\/a>, 9 mind-blowing facts about the Universe<\/a>, or the biggest cosmic objects<\/a>.<\/p> And take a look at our list of the coolest things in space<\/a>.<\/p> Here are some of the most mindblowing facts about space and astronomy.<\/p> Despite its appearance in the night sky, our natural satellite is nowhere near round. In fact, the Moon is shaped like a lemon, with flattened poles and bulges on both the near and far side around its equator.<\/p> This strange shape is thought to have been created during interactions with Earth soon after its formation.<\/p> In 2009, astronomers exploring a giant cloud of gas and dust at the centre of the Milky Way made a surprise discovery \u2013 the cloud was packed full of a chemical known as ethyl formate, which has a couple of intriguing properties: it is responsible for giving raspberries their flavour, and has the smell of rum.<\/p> Another nearby region is also notable as it\u2019s full of ethyl alcohol, or ethanol, the type we use to make alcoholic beverages.<\/p> It contains enough alcohol to supply every person on the planet with 300,000 pints of beer per day for the next billion years!<\/p> If bottled at the source, the proof for this beer would be very low, with an alcohol content of less than 1%, but as the cloud also contains plenty of other nasty chemicals, among them carbon monoxide and hydrogen cyanide, it would still leave you with quite a headache the next morning.<\/p> Find out more about this in our interview with astronomer Jillian Scudder<\/a>.<\/p> Technically, one Mercurian day lasts 59 Earth days, while a year lasts 88.<\/p> However, due to Mercury\u2019s very eccentric orbit and alignment with the Sun, the length of time from sunrise to sunrise, known as a \u2018solar day\u2019, is equal to 176 Earth days \u2014 twice as long as a Mercurian year.<\/p> Although films such as Total Recall<\/i> show instant explosions and rapidly puffed-up spacesuits, the effects of being exposed to space are slightly less dramatic.<\/p> Although it would definitely be unpleasant, you could survive for a couple of minutes.<\/p> After around 10 seconds, you would lose consciousness. The lower pressure of the vacuum would cause your blood to boil, along with other body fluids (the moisture on your tongue, for example) \u2013 but this boiling alone would not be fatal due to the pressure maintained by our blood vessels themselves.<\/p> Gas bubbles would form in your bodily fluids, causing your body to swell up and bloat. The low humidity of space would cause you to cool down rapidly, and your eyes may freeze over.<\/p> Within one to two minutes, the lack of oxygen would be deadly.<\/p> The stress of the situation may make these symptoms worse \u2013 you would become oxygen-deprived more quickly.<\/p> A rapid decompression would cause damage to your lungs, eardrums and sinuses, along with bruising and bleeding from soft tissues.<\/p> Read more about this in our look at what would happen if an astronaut took off their helmet<\/a>.<\/p> A neutron star<\/a>\u2019s density is mind-boggling. These stars are composed almost entirely of neutrons packed together in a tiny radius.<\/p> Just a teaspoonful of this material would weigh over a trillion kilograms \u2014 more than the weight of the entire human population (which reaches a few hundred billion kilograms).<\/p> To make something as dense as a neutron star, the whole of humanity would need to be crammed into a space the size of a sugar cube.<\/p> Nothing in the Universe rivals the power unleashed during a gamma-ray burst<\/a>, a brief but incredibly intense flash of high-energy radiation.<\/p> There are many types of gamma-ray burst: some are thought to form when a massive star implodes; others when two neutron stars merge together.<\/p> Ever since the Big Bang, most objects in space have been moving away from one another. In fact, the expansion of the Universe<\/a> is actually accelerating.<\/p> This is one of the facts about space that has really rocked the cosmological boat over the past few years.<\/p> As regions of space are whizzing away from one another at an ever-increasing rate, the first population of stars to form in the Universe are now too far away for us to ever hope of spying them \u2013 even using the best present or future telescope.<\/p> Hope is not lost; we can attempt to spot them indirectly via the energetic bursts of radiation they emit at the end of their lives.<\/p> Black holes<\/a> are known for their voracious appetites; their influence is so strong that even light can\u2019t escape their gravity. But they have a theoretical converse \u2013 white holes<\/a>.<\/p> They are effectively the opposite of their dark relatives, spitting out light and matter instead of trapping it.<\/p> So far, they are purely hypothetical objects; astronomers are contemplating how they could form in reality.<\/p> The region of space in which a mass\u2019s magnetic field<\/a> dominates is known as its magnetosphere. These regions surround planets, pulsars<\/a> and even our Galaxy.<\/p> The planets in our Solar System have magnetospheres that interact with and are shaped by the charged particles in the wind streaming from our Sun.<\/p> The largest magnetosphere in our Solar System surrounds Jupiter. Jupiter rotates very fast and has a very strong magnetic field, and its magnetosphere is filled with plasma from its volcanically active moon, Io.<\/p> These features, coupled with the fact that the solar wind is slower and less dense at Jupiter than at Earth, lead to a very sizeable Jovian magnetosphere.<\/p> It is easily big enough to contain a body the size of our Sun and, if visible, would be larger than the Moon in our night sky; quite an achievement considering that it is over 1,500 times farther away.<\/p> This is one of our favourite facts about space, and perhaps the most memorable (if you want to impress your friends next time you’re sharing cool facts.<\/p> Neptune takes a whopping 165 years to complete one full orbit around the Sun. Since it was discovered in 1846, Neptune only finished its first full post-discovery orbit in 2011.<\/p> Demoted planet Pluto has yet to match this \u2013 it is not even close to completing one full, 248-year orbit since its discovery in 1930.<\/p> Not all planets form and stay around stars: astronomers estimate that there could be more than 200 billion of them floating free and drifting through our Galaxy.<\/p> These \u2018rogue\u2019 planets were thought to have been kicked out of their home systems.<\/p> While this is true for some, other planets may have formed completely independently of an accretion disk<\/a> (as was the case for our Solar System) instead forming from the collapse of tiny, cold clouds known as globulettes.<\/p> Particles in the Sun\u2019s upper atmosphere are so hot and energetic that they speed out into space as part of the solar wind.<\/p> Our star sheds around 1.3 trillion trillion trillion particles every second. This equates to roughly one billion kilograms of matter per second, or one Earth every 185 million years.<\/p> Our Sun may be a single star, but it is in the minority.<\/p> Over half of the Sun-like stars in the Milky Way are part of multiple star systems, binaries or triplets, with stars orbiting around a common centre of mass.<\/p> Most lower-mass stars like red dwarfs, however, live alone without a companion.<\/p> Earth\u2019s oceans may not be that unique. Three of Jupiter\u2019s moons (Europa, Ganymede, and Callisto) and two of Saturn\u2019s (Enceladus (pictured above) and Titan) are thought to have underwater seas.<\/p> Europa\u2019s ocean may contain over twice the volume of water found on Earth. However, the most water ever discovered surrounds a black hole some 12 billion lightyears away.<\/p> This region contains vast amounts of water vapour, the equivalent of 140 trillion times the volume of water in Earth\u2019s oceans.<\/p> There is more water in space<\/a> than you might think. <\/p> Footage of astronauts on the International Space Station may give the impression of a gravity-free environment, but onboard gravity is actually only 10-11% weaker than it is on Earth\u2019s surface.<\/p> This particular one of our facts relates to the common belief that there’s no gravity in space<\/a>.<\/p> Astronauts float freely due to the Space Station’s continual state of free-fall, the same effect experienced by skydivers.<\/p> The difference with the ISS is that it also has horizontal motion.<\/p> As the ISS moves \u2018sideways\u2019 and falls towards Earth, the horizon curves away beneath it at the same rate, keeping the ISS in orbit and simulating a feeling of weightlessness for anyone on board.<\/p> Earth\u2019s spin speed is slowing: every year, it takes our planet a little longer to complete one full revolution on its axis.<\/p> The change is miniscule, however. Every century, Earth slows<\/span> by 1\/500th of a second; 1,000 years from now, one day will be two hundredths of a second longer than today.<\/p> The Moon exerts a pull on Earth, causing our planet to be slightly egg-shaped.<\/p> It affects water even more, creating tides and causing the oceans to pile up towards one side of the planet, forming a \u2018tidal bulge\u2019.<\/p> This bulge is dragged around with the Moon as it orbits. As Earth rotates faster than the Moon \u2013 24 hours versus 27.3 days \u2013 the bulge moves slightly ahead of the Moon\u2019s position in orbit.<\/p> The Moon pulls back on it, effectively trying to slow it down and causing Earth\u2019s rotation rate to gradually slow down over time as a result.<\/p> As the two bodies interact through gravity, this tugging causes Earth to lose energy while the Moon gains energy.<\/p> Because of this energy boost the Moon is slowly spiralling outwards, moving away from us by 3.8cm per year.<\/p> The early Universe consisted of a hot soup of ionised gas: a sort of opaque plasma.<\/p> About 380,000 years after the Big Bang, this gas cooled sufficiently enough that atoms were able to form.<\/p> Radiation left over from the Big Bang is still around us today, and is known as the cosmic microwave background<\/a> (CMB).<\/p> It can’t be seen with the naked eye, but various missions over the years have been able to study it in microwave light, including ESA’s Planck satellite and the WMAP<\/a> mission.<\/p> Venus spins in the opposite direction to the rest of the planets in our Solar System.<\/p> Clearly, this is a puzzle that requires solving if we are to understand more about the formation and evolution of our Solar System.<\/p> Could it be that, in the early days of the Solar System, Venus was hit by another object, sending it spinning in the opposite direction?<\/p> The truth is, there is no confirmed theory as to why Venus spins backwards relative to the other planets.<\/p> But that’s not the only strange thing about Venus’s orbit.<\/p> The planet also rotates slowly, with the Venusian day equivalent to 243 Earth days, and longer than the Venusian year of 225 Earth days.<\/p> Find out more in our article Why Venus spins backwards<\/a>.<\/p> Some facts about space seem to defy simple logic. Neptune is the furthest planet from the Sun, so you might expect it to be the coldest planet.<\/p> But it’s not: Uranus is.<\/p> The question is, why is Uranus the coldest planet in the Solar System?<\/p> Could Uranus’s plummeting temperature be related to the planet’s atmosphere?<\/p> Did Uranus lose most of its primordial heat early in its life?<\/p> Or could it be related to the planet\u2019s strange tilt, relative to the rest of the planets that orbit our Sun?<\/p> Find out more about the theories in our article Why is Uranus the coldest planet in the Solar System?<\/a><\/p> Venture beyond the event horizon and you’ll not be able to escape the powerful gravity of a black hole.<\/p> Black holes are objects so dense that not even light can escape their gravitational pull.<\/p> Yet despite this, black holes can shine brightly<\/a>, and this may be one of the most contradictory-sounding facts about space on our list.<\/p> Supermassive black holes can illuminate the centre of galaxies and are known as active galactic nuclei.<\/p> How can this be?<\/p> As cosmic material falls into a black hole, it forms an accretion disc that swirls around it.<\/p> This material gets very hot and glows: it can even power jets of material that shoot out of the black hole into space.<\/p> This all occurs just outside the event horizon, and is one of the ways astronomers can detect black holes even though they can observe them directly.<\/p> Compared to the rest of the worlds of our Solar System – even colossal Jupiter – our Sun is pretty big.<\/p> But it’s nothing compared to the biggest stars we know of: red hypergiant stars<\/a> that would positively dwarf our Sun if ever there was a cosmic ‘who’s the biggest star?’ contest.<\/p>22 facts about space, our Solar System and the Universe<\/strong><\/h2>
The Moon is lemon-shaped<\/strong><\/h3>
Milky Way smells of rum, raspberries and booze<\/strong><\/h3>
![\"Milky](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/04\/space-rum-raspberries-smell-5840ef7.jpg\")
<\/figure>On Mercury a day is twice as long as a year<\/strong><\/h3>
![\"On](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/10\/Mercury-realistic-imgae-61c867c-e1571410840102.jpg\")
You could survive for a couple of minutes in a leaky spacesuit<\/strong><\/h3>
![\"You](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/04\/tink-029adb3-e1588252892217.png\")
<\/figure>1 tsp of neutron star weighs the same as the human population<\/strong><\/h3>
![\"1](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/05\/Neutron-Star-2296c2d.jpg\")
<\/figure>Gamma-ray bursts release more energy in 10 seconds than our Sun will in its entire life<\/strong><\/h3>
![\"Gamma-ray](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/04\/gamma-ray-burst-07afa49-scaled-e1587559779552.jpg\")
<\/figure>There are stars we will never be able to see<\/strong><\/h3>
![\"There](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/02\/potw1703a-8eb608f.jpg\")
<\/figure>Black holes have theoretical opposites known as white holes<\/strong><\/h3>
![\"Black](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/05\/White-hole-446829e-scaled-e1588669809182.jpg\")
<\/figure>Jupiter\u2019s magnetic field is bigger than the Moon<\/strong><\/h3>
![\"Jupiter\u2019s](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/05\/Jupiter-magnetic-field-8965c7f.jpg\")
<\/figure>Neptune has only completed one orbit around the Sun since its discovery<\/strong><\/h3>
![\"Neptune](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/10\/neptune-with-hubble-feecb17-e1571902966676.jpg\")
Planets can wander through space without a parent star<\/strong><\/h3>
![\"Planets](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/05\/Rogue-exoplanet-3af8a4b.jpg\")
<\/figure>The Sun loses a billion kilos per second<\/strong><\/h3>
![\"The](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/03\/The-Sun-copy-7215236.jpg\")
<\/figure>Most Sun-like stars in our galaxy are in multiple star systems<\/strong><\/h3>
![\"Most](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/05\/Exoplanet-orbiting-two-stars-6be0e0d.jpg\")
<\/figure>Vast amounts of water have been found in space<\/strong><\/h3>
![\"Vast](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/10\/Enceladus_Cassini_plume_dive-f5e7a4e.jpg\")
<\/figure>There is gravity on the International Space Station<\/strong><\/h3>
![\"There](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/06\/04-Scott-Kelly-fruit-982caf2.jpg\")
<\/figure>Our days are getting longer<\/strong><\/h3>
![\"Our](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/09\/Galileo_Earth_Moon-de902b7.jpg\")
<\/figure>The Moon is getting farther away every year<\/strong><\/h3>
![\"The](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/05\/Moon-from-ISS-e3dea76.jpg\")
<\/figure>Heat from the Big Bang is still around today<\/strong><\/h3>
![\"Heat](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/04\/Planck_CMB-07a1b86-e1597141466232.jpg\" "\\"\\"\/")
Venus spins backwards<\/strong><\/h3>
![\"Venus](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2023\/03\/venus-mariner-10-02b24b5.jpg\" "\\"\\"\/")
Uranus is the coldest planet in the Solar System<\/strong><\/h3>
![\"Uranus](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2023\/02\/webb-uranus-2023-a068939.jpg\" "\\"\\"\/")
Black holes give off light<\/strong><\/h3>
![\"2](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2023\/04\/11-hubble-discoveries-triplicate-506d8ff.jpg\")
5 billion Suns could fit in UY Scuti, one of the biggest known stars<\/strong><\/h3>
![\"Artist's](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2024\/02\/uy-scuti-1024x427.jpg?fit=800%2C334\")