Mesklin
Mesklin is a fictional planet created by Hal Clement and used in a number of his hard science fiction stories, starting with Mission of Gravity. Alongside the novel's original 1953 serialization in Astounding Science Fiction, Clement published an essay titled "Whirligig World" on how he designed the planet to have the properties he wanted. The idea came from an object that was at the time believed to exist in the 61 Cygni system, and which might represent an extrasolar planet.
The planet is distinctive for the interaction of its strong gravity with the centrifugal force due to its fast rotation, giving it a gradient in the perceived force of gravity from 3 g on the equator to 665 g on the planet's poles. It is inhabited by native lifeforms, including an intelligent centipede-like species, the Mesklinites.
Mesklin is considered a prototypical example of hard science fiction worldbuilding, an exotic milieu that nevertheless accords with known facts and laws of physics. While the planet itself is vastly dissimilar to Earth, its inhabitants are commonly regarded to be noticeably humanlike in behaviour if not in appearance. Mesklin is sometimes viewed as the main character of Mission of Gravity.
Description
Mesklin is a fictional planet orbiting one of the stars in the 61 Cygni binary star system. Its mass is sixteen times that of Jupiter, or 4,800 times Earth mass. It has a very high rate of rotation, one day on the planet lasting only eighteen minutes. As a result, the planet is significantly flattened with a large equatorial bulge: the diameter at the equator is while the diameter between the poles is slightly below. By comparison, the diameter of Earth is approximately. The planet thus has a significantly higher mass than Jupiter within a much smaller volume, and its core is made up of collapsed matter. The surface gravity is very high at 665 times Earth gravity at the poles, but at the equator the effective gravity is only three times Earth's as the rapid rotation produces a significant centrifugal force that counteracts most of the gravitational force.Mesklin orbits its star in an elongated ellipse, completing a full revolution in 1,800 Earth-days. The high orbital eccentricity combines with a pronounced axial tilt to result in an uneven seasonal cycle. In the southern hemisphere, the springs and summers are very lengthy and the autumns and winters much briefer ; the pattern is reversed in the northern hemisphere. The two hemispheres thus have significantly different climates. The planet is cold, with average temperatures ranging from −50 °C at the closest approach to its star to −180 °C at the furthest point in its orbit. Mesklin is itself orbited by two small moons and has a large ring system.
The surface is covered mostly by methane and ammonia, both mainly in the liquid state; the oceans are primarily made up of methane, while the ammonia is also present as snow. The atmosphere is principally composed of hydrogen, and its density decreases with increasing altitude to such a degree that atmospheric refraction through the successive layers produces the optical illusion that an observer on the surface perceives the ground as curving upwards, as if living on the concave inside of a bowl rather than the convex surface of a spheroid.
The planet is inhabited by various lifeforms. The intelligent native inhabitants, the Mesklinites, resemble centipedes or caterpillars. They are long and wide, with eighteen pairs of legs ending in suckers as well as a forward pair of pincers for manipulation and a rear pair for attaching to the ground. They have four eyes and mandibles. They have a tough exoskeleton that allows them to withstand the planet's strong gravity. They have no lungs but breathe hydrogen by absorbing it directly from the atmosphere in a manner similar to that used by the respiratory system of insects, whereas oxygen is toxic to them. They are able to survive while submerged for extended periods of time by breathing dissolved gases. Their lifespan is much longer than that of humans. They have a strong fear of heights and of being underneath objects, owing to the danger posed by such things in a high-gravity environment. For similar reasons, they have no concept of flying or throwing things. Their society is pre-industrial with rudimentary technology including seafaring vessels.
Appearances
The planet first appeared in Hal Clement's novel Mission of Gravity, which was first serialized in Astounding Science Fiction. The third of the four serial instalments, in the June 1953 issue, was accompanied by a 13-page article by Clement titled "Whirligig World" describing the planet and the process of creating it in detail. Clement later wrote an additional three fictional works using the planet or its denizens: the sequel novel Star Light and the short stories "Lecture Demonstration" and "Under". The book Heavy Planet is a collection of these five Mesklin-related works. In "Whirligig World", Clement encouraged other authors to use Mesklin as a setting for their stories provided that they stay within "reasonable scientific standards", while acknowledging that to be "certainly an elastic requirement in the field of science fiction".Concept and creation
Clement drew inspiration from astronomical work published in Publications of the Astronomical Society of the Pacific in 1943 by Kaj Aage Gunnar Strand, whose analysis of the motion of the two known stars in the 61 Cygni system suggested the presence of a third, unseen object of relatively small size and mass. This was the first evidence—albeit indirect—of what might be an extrasolar planet; the discovery has since come to be regarded as likely erroneous. Clement used what was thought to be known about the object, dubbed 61 Cygni C by astronomers, and tried to create an interesting setting for a story within those bounds. The magazine Astounding Science Fiction had published a nonfiction article on the apparent discovery in the July 1943 issue—"The World of 61 Cygni C" by Robert S. Richardson, who also published fiction under the pseudonym Philip Latham—and Clement may have used Richardson's work in addition to Strand's.The calculated mass of the object, at approximately 16 Jupiter-masses, meant that it was expected to be somewhat smaller than Uranus as a result of gravitational compression. At the time, it was unclear whether the object would behave more like a very low-mass and faint star or a high-mass planet ; Clement elected to depict Mesklin as the latter in order to be able to use it as a setting for his story. Given this size and mass, the surface gravity would be about 300 times Earth gravity. Clement decided to reduce the effective gravity by providing the planet with a rapid rate of rotation to make it possible for humans to land on it in the story. He settled on an effective equatorial gravity of 3 g and worked backwards from there to calculate the spin that would result in the centrifugal force necessary to offset the correct amount of the planet's gravitational pull. A high rate of rotation was deemed plausible given what was known about planet formation and the fact that the more massive planets in the Solar System spin more rapidly than the less massive ones such as Earth. The rapid spin also meant that Mesklin would be significantly flattened by the centrifugal force, which over time would redistribute its matter away from the poles and towards the equator.
The combined effect of the difference between the polar radius and the equatorial one, which makes the gravity stronger at the poles since the force of gravity decreases with distance, and the centrifugal force decreasing from its maximum at the equator to zero at the poles would result in a great difference between the gravitational pulls experienced at the two locations. This was one of Clement's goals: he wanted to challenge the assumption—present in planetary science and science fiction alike—that while different planets might have stronger or weaker gravity, the gravitational field of a single planet would not display a large degree of variation across its surface. Clement calculated the gravity at the poles to be 665 g, but noted a low degree of confidence in this figure as the standard methods used for calculating the gravity of a spherical object would not be applicable to such a distorted shape, and stated that formulae different from the ones he used suggested that his figure might be too high by a factor of two. Clement redid his calculations years later with the aid of a computer rather than the slide rule he had originally used, coming up with a figure around 275 g for the polar gravity.
Based on the inferred orbit of 61 Cygni C and the known properties of the stars in the system, Clement calculated that the planet would be very cold at an average temperature of −170 °C throughout the majority of its year, with a low of −180 °C and a high of −50 °C. Clement wanted his imagined planet to have native lifeforms, and reasoned that this would necessitate a substance that is liquid under these temperature conditions to play the role in the living tissue that water plays in life as we know it. He enlisted the help of biochemistry teacher and fellow science fiction writer Isaac Asimov, and together they worked through various alternatives such as carbon disulfide and hydrogen fluoride before settling on methane, and developed a basic outline for the kind of ecosystem and lifeforms that could plausibly exist in such a chemical environment. The low boiling point of methane meant that the oceans would be expected to boil during the warmest 300 days of the planet's 1,800-day year. To solve this problem, Clement provided the planet with an axial tilt of 28° such that the northern hemisphere's summer solstice would coincide with the closest approach to its star, reasoning that the northern hemisphere would then amass a substantial polar ice cap during its lengthy winter that would be melted and boiled off in the summer, while the southern hemisphere would be shielded from the heat by being pointed away from the star and remain livable as the planet reached the nearest point in its orbit.