See 14 Mind-Blowing Places in Our Solar System

See 14 Mind-Blowing Places in Our Solar System
The rugged high rim of Pluto's Sputnik Planitia basin and the nitrogen-methane ice sheet that partially fills its floor. (Image: Lunar and Planetary Institute/Paul Schenk/NASA/New Horizons)

Our solar system is an undeniably fascinating place, featuring an assortment of celestial oddities and wonders. Between the planets, moons, comets, and asteroids, there’s no shortage of places for us to explore. Slowly but very surely, we’re finding all sorts of incredible ” and sometimes unexplainable ” phenomena.

In this article, we present to you some of the most dramatic and enigmatic places within our home star system.

Olympus Mons on Mars

Computer-generated depiction of Olympus Mons. (Image: NASA/MOLA Science Team/ O. de Goursac, Adrian Lark) Computer-generated depiction of Olympus Mons. (Image: NASA/MOLA Science Team/ O. de Goursac, Adrian Lark)

Mars’s Olympus Mons, one of the largest volcanoes in the solar system, is all sorts of ridiculous. It measures 600 km in diameter, which is roughly the same size as Arizona. Its summit caldera rises some 24 km above the surrounding Martian plains. Olympus Mons is the product of excessive lava flows, likely the result of lower surface gravity and frequent eruption rates.

Pluto’s Bladed Terrain

Pluto's bladed terrain as seen from New Horizons during its July 2015 flyby. (Image: NASA/JHUAPL/SwRI) Pluto's bladed terrain as seen from New Horizons during its July 2015 flyby. (Image: NASA/JHUAPL/SwRI)

During its 2015 flyby of Pluto, NASA’s New Horizons spacecraft captured images of the dwarf planet’s bladed terrain, littered with gigantic shards of methane ice the size of skyscrapers. Astoundingly, the tallest of these structures reach 500 metres tall. A similar formation, called penitentes, is seen on Earth at a vastly smaller scale. Planetary scientists theorise that, millions of years ago, methane froze at Pluto’s high elevations and has been slowly evaporating into gas over time, in a rather unique form of erosion. Jupiter’s moon Europa exhibits similar features, the tallest of which measure five stories high.

Titan’s “˜Magic’ Island

Now you see it, now you don't: Titan's enigmatic island.  (Image: NASA/JPL-Caltech/ASI/Cornell) Now you see it, now you don't: Titan's enigmatic island. (Image: NASA/JPL-Caltech/ASI/Cornell)

Saturn’s moon Titan is arguably the most alien place in the solar system, with its thick atmosphere, hydrocarbon seas, giant dust storms, ice volcanoes, and precipitation in the form of raining methane and ethane. In 2013, NASA’s Cassini spacecraft appeared again.

Scientists aren’t entirely sure what it is, citing such possibilities as waves, bubbles, floating solids, and suspended solids (like silt in a terrestrial delta). Also, because Titan was transitioning from spring into summer at the time of the observations, scientists believe the phenomenon is tied to the change of seasons. Like I said, Titan is a very alien place.

Verona Rupes: The Largest Cliff in the Solar System

Verona Rupes on Miranda.  (Image: NASA/Voyager 2) Verona Rupes on Miranda. (Image: NASA/Voyager 2)

Verona Rupes is a cliff on Uranus’s moon Miranda, and at 19 km deep (20 km), it’s the tallest sheer cliff in the solar system. For perspective, Verona Rupes is 10 times deeper than the Grand Canyon. Its edge seems like an ominous place to stand and gaze at the wonder that is Miranda, but here’s the funny thing ” you could probably survive a leap off this colossal structure, thanks to the paltry gravity on this tiny moon, which measures just 470 km in diameter. According to NASA, a free fall from top to bottom should take about 12 minutes, so you better bring something to read for the trip down. As to how this structure formed, scientists suspect a large impact or tectonic forces.

Saturn’s Ravioli-Shaped “˜Ring Moons’

Saturn's ring moon, Atlas. (Image: NASA/JPL-Caltech/Space Science Institute) Saturn's ring moon, Atlas. (Image: NASA/JPL-Caltech/Space Science Institute)

Saturn has around 60 moons, some of which are located either inside or next to its majestic ring system. Five of these ring moons, as they’re called, are exceptionally weird in terms of their physical appearance, featuring equatorial bulges. Some bulges are pronounced and amorphous, while others are more skirt-like in how they’re wrapped around the moons.

Maps showing segmented geological features of Atlas (A), Daphnis (B), Pan (C), and Pandora (D). (Image: NASA/JPL-Caltech/Space Science Institute/B. J. Buratti et al., 2019/Science) Maps showing segmented geological features of Atlas (A), Daphnis (B), Pan (C), and Pandora (D). (Image: NASA/JPL-Caltech/Space Science Institute/B. J. Buratti et al., 2019/Science)

Recent research suggests these moons ” none of which is wider than 20 km across ” formed from the same giant impact that spawned Saturn’s rings.

“The moons are giant shards left over from the impact,” Bonnie Buratti, an astronomer from NASA’s Jet Propulsion Laboratory and the California Institute of Technology, told Gizmodo in March of 2019. “The “˜skirts’ around their equators are particles from the rings that continue to accrete. The way the moons scoop out particles in their path could be a smaller example of how planets form from smaller particles.”

Arrokoth

A composite colorized view of Arrokoth. (Image: NASA/New Horizons) A composite colourised view of Arrokoth. (Image: NASA/New Horizons)

After New Horizons flew past Pluto in 2015, mission controllers at NASA steered the spacecraft toward a mysterious Kuiper Belt object called 2014 MU69. This distant object is located around 44 AU from the Sun, or around 6.5 billion km from Earth, making it the farthest object ever visited by a probe.

We knew New Horizons would find something exotic, but nothing prepared us for the images it sent back soon after its brief encounter on New Year’s Day 2019. Arrokoth, as the object is now named, looks like a two-lobed snowman. Astronomers call it a contact binary, in which two distinct objects have fused together to form a singular structure. It’s very cool, if not a bit spooky.

The Imhotep Region on Comet 67P/Churyumov-Gerasimenko

Accumulation basins identified within the Imhotep region on Comet 67P/Churyumov-Gerasimenko. (Image: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA) Accumulation basins identified within the Imhotep region on Comet 67P/Churyumov-Gerasimenko. (Image: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA)

Located on Comet 67P/Churyumov-Gerasimenko’s large lobe, Imhotep is a remarkably diverse region covering about 200 acres. It is one of the “most geologically diverse regions” observed by the Rosetta probe, according to the ESA, and an excellent place for studying the comet and how it formed.

In addition to an unusually flat swatch of real estate filled with fine-grained materials, Imhotep features many boulders (2,207 to be exact), rocky terrains, basins in which rocks and boulders have accumulated, fractured terraces indicative of internal layering, bright patches pointing to the presence of ice, and mysterious roundish features not seen elsewhere on the object. Comets, as Imhotep demonstrates, are far from boring.

Loki Volcano on Jupiter’s Moon Io

The Loki volcano erupting on Io in 1979, as captured by NASA's Voyager 1 spacecraft. (Image: NASA/JPL/USGS) The Loki volcano erupting on Io in 1979, as captured by NASA's Voyager 1 spacecraft. (Image: NASA/JPL/USGS)

On its own, Io is easily one of the most mind-blowing places known to astronomers. In orbit around Jupiter, Io is the most volcanically active object in the solar system, featuring lakes of molten silicate lava on the surface. Io’s extreme volcanic nature is due to gravitational forces exerted by Jupiter and two neighbouring moons, Europa and Ganymede.

Lots of volcanoes exist on Io, but Loki takes the cake, accounting for 15 per cent of the moon’s total heat expenditure. What’s more, this 200 km-wide (200 km) volcano is a periodic volcano, meaning its eruptions tend to follow a distinct pattern. Since 2013, Loki has been erupting at roughly 475-day intervals, with eruptions lasting for roughly 160 days.

Korolev Crater on Mars

Oblique perspective of Korolev Crater, generated with a digital terrain model and data from Mars Express. (Image: ESA/DLR/FU Berlin, CC BY-SA 3.0 IGO) Oblique perspective of Korolev Crater, generated with a digital terrain model and data from Mars Express. (Image: ESA/DLR/FU Berlin, CC BY-SA 3.0 IGO)

Behold the largest skating rink in the solar system: Korolev Crater on Mars. Located in the northern lowlands of the Red Planet, the crater measures 82 km in diameter. The ice within this crater is a permanent feature, which, wow. Who’s up for the most epic game of hockey in the history of the solar system?

Titan’s Gigantic Sand Dunes

Dunes on Titan's surface. (Image: NASA/Cassini) Dunes on Titan's surface. (Image: NASA/Cassini)

Titan has a large equatorial desert called the Shangri-la Land Sea, and it features a rather impressive network of sand dunes. These dunes extend across an area measuring over 10 million square km, with some individual dunes reaching as tall as 100 metres. Sand dunes on Earth are composed primarily of silicates, but Titan’s dunes are made from organic materials bombarded into existence by the Sun’s cosmic rays, according to recent research.

The Violent Venusian Atmosphere

A newly-processed view of Venus as seen by the Mariner 10 probe in 1974.  (Image: NASA/JPL-Caltech) A newly-processed view of Venus as seen by the Mariner 10 probe in 1974. (Image: NASA/JPL-Caltech)

Venus’s most terrifying feature ” its atmosphere ” is also its most fascinating. Clouds located in the upper atmosphere race across the planet at speeds reaching 360 km per hour (360 km), blowing from east to west (opposite to how we do it here on Earth). Hurricane-strength winds perpetually blow across the entire globe, though at altitude. Oh, and these clouds are filled with sulfuric acid that rains down upon the planet’s surface, hot enough to melt lead. To add insult to injury, the planet has electric winds that stripped the planet of its atmospheric water. Venus also features one of the most impressive atmospheric structures in the solar system ” a bow-like weather feature that stretches for nearly 10,000 km across the planet.

Saturn’s Hexagon-Shaped Poles

A hexagon-shaped north pole of Saturn.  (Image: NASA/JPL-Caltech/Space Science Institute) A hexagon-shaped north pole of Saturn. (Image: NASA/JPL-Caltech/Space Science Institute)

We tend to associate Saturn with circles, from its monumental rings to the yellow and gold bands in its upper atmosphere. That’s why the hexagon-shaped storm at the planet’s north pole seems so jarring. It’s just so… unnatural. The storm, which measures some 30,000 km across, is caused by alternating flows and high-latitude zonal jets, according to new research. It’s undeniably weird, but yet another striking feature of the solar system’s most striking planet.

Valles Marineris: The Grand Canyon of Mars

Valles Marineris on Mars.  (Image: NASA) Valles Marineris on Mars. (Image: NASA)

Valles Marineris is the largest canyon in the solar system, stretching for a whopping 600 kilometres. At its deepest, the canyon reaches a depth of 8 km. The Grand Canyon in Arizona is a bit longer, but it’s only 1.8 km deep. Keep in mind, however, that the diameter of Mars is only slightly more than half of Earth’s diameter. Fair to say, if Mars had a vibrant tourist industry, Valles Marineris would be a must-see.

Earth

Our solar system is home to some really amazing and bizarre places, but absolutely nothing compares to Earth. Located in a stable orbit within the habitable zone, our home planet features a highly protective magnetic field, an oxygen-rich atmosphere, copious amounts of liquid water, plate tectonic activity, lots of terrestrial surfaces, regularly changing seasons, and of course, life.