In discussing the scientific content of sf it is customary to regard the sciences as ranging from "hard" to "soft", with physics lying at the hard end of the spectrum (HARD SF). A concern with the hard sciences is generally held to have characterized sf of the period 1940-60, or a type of sf whose locus classicus is to be found in that period, and so we may expect this type of sf, in its scientific aspect, to be dominated by physics. In fact a large part of the importance in sf of physics can be attributed to its association with TECHNOLOGY; among the pure sciences, ASTRONOMY and BIOLOGY have probably provided more motive force for hard sfthan has physics. Nevertheless, physics is prominent in the ideological and cultural background to sf, and its influence can often be detected even when it makes no explicit contribution to a story. A familiarity with physical ideas and an ability to deploy the language of physics have been used by many authors to establish a general scientific atmosphere, a good example being Isaac ASIMOV's "Three Laws of Robotics", which borrow the form of Newton's Three Laws of Motion so as to claim the same seminal impact.The two areas of physics which have been most popular with sf writers, GRAVITY (see also ANTIGRAVITY) and Relativity (FASTER THAN LIGHT), are covered in the relevant entries. Ideas from physics have beenapplied to technology constantly since Hugo GERNSBACK or even Jules VERNE, but in such writing the interest usually lies in the application. Some writers seem to feel that the motivation of fundamental research lies entirely in its applications. Tom GODWIN, for example, in "Mother of Invention" (1953), changes the proverb and proposes that necessity is themother of DISCOVERY; he shows the crew of a crashed spaceship developing a new theory of gravitation which enables them to design an antigravity generator to lift their ship. The most extreme example of this attitude is embodied in Raymond F. JONES's "Noise Level" (1952), which argues that, if we only try hard enough, we can discover any laws of nature we should like to be true.Many imaginary inventions and strange events are based on points of physics, though sometimes the explanation of the modus operandi amounts to no more than a translation into technical terms of the everyday description of its effect - as in H.G. WELLS's explanation in The Invisible Man (1897) that the INVISIBILITY potion works by giving humanflesh a refractive index of one. An effect at the opposite pole to this was envisaged by Bob SHAW in his invention of "slow glass" in "Light of Other Days" (1966), in which light travels so slowly that it takes severalyears to travel through the thickness of a window pane. (Realizing that it would not give quite the effect he wanted, Shaw was obliged to reject the description of slow glass as simply having a very high refractive index.)Part, if only a small part, of the effectiveness of the idea of slow glass lies in the way it provides an imaginative realization of a physical fact that in normal experience remains merely theoretical knowledge, namely the finiteness of the speed of light. This kind of imaginative exploration of physics can be seen in its purest form in James BLISH's "Nor Iron Bars" (1957), which is an attempt to provide a pictureof the inside of an atom and the quantum behaviour exhibited by electrons, utilizing the device of having a spaceship shrink to subatomic size and move inside an atom as if it were a solar system. This was one of the very few sf stories before the mid-1970s to make any substantial use of quantum phenomena. Blish adopted a similar approach to a more familiar area of physics in his famous microscopic-world story "Surface Tension" (1952).Ideas from physics have been used in postulating new forms of life.The favourite basis for these is electromagnetic fields, either in isolation, as in Fredric BROWN's "The Waveries" (1945) and Bob Shaw's The Palace of Eternity (1969), or in conjunction with inorganic matter, as inFred HOYLE's The Black Cloud (1957), the latter having something in common with the sentient suns in Olaf STAPLEDON's STAR MAKER (1937). Blish's VOR (1958) is about a creature whose energy source is one of the fusion cycleswhich Bethe proposed as taking place in stars (this creature communicates by modulating light waves rather than sound waves). In Fredric Brown's "Placet is a Crazy Place" (1946) there are birds, made of condensedmatter, which fly through the rock of a planet as if it were air. StanisLaw LEM's SOLARIS (1961; trans 1970) postulates life formed from anew type of matter composed entirely of neutrinos. Shaw's A Wreath of Stars (1976) postulates an antineutrino world whose form of matter caninterpenetrate with that of our own. Neutrinos are particles which have no properties other than momentum and spin, and interact only very weakly with other particles, so that they are very difficult to stop. Their harmlessness is the point of Ralph S. Cooper's SATIRE "The Neutrino Bomb" (1961); their delicacy underlies the idea of "neutrino acupuncture" in"Six Matches" (1960) by Arkady and Boris STRUGATSKI.The last four examples make use of the branch of physics which, together with COSMOLOGY (including theories of BLACK HOLES), has undergone dramatic development inthe last decade and therefore has the most obvious potential for sf; the physics of elementary particles. Subnuclear physics provides one of the ideas in Isaac Asimov's THE GODS THEMSELVES (1972), which postulates a parallel universe whose strong nuclear force is greater than in ours; pumping electrons between the two universes provides a source of energy in both. Some of the more striking ideas in the field of particle physics concern condensed matter, ANTIMATTER and neutrinos. Condensed matter is of two kinds: "electron-degenerate" matter, the material of white dwarf stars, in which the atoms are compressed as close as they can be while remaining atoms (a matchboxful would weigh several tons); and nuclear matter ("neutronium"), the material of NEUTRON STARS, which has the density of the atomic nucleus (a pinhead of it would weigh several thousand tons). Degenerate matter features in "Placet is a Crazy Place" and in Paul CAPON's juvenile novel The Wonderbolt (1955); and nuclear matter in Larry NIVEN's "There is a Tide" (1968).Antimatter is composed of particles which are the opposite in all respects to those which compose ordinary matter; when matter and antimatter meet, they mutually annihilate in a burst of radiation. A.E. VAN VOGT's "The Storm" (1943) is about a storm in space that takes place when an ordinary gas cloud meets a cloud of antimatter gas. Some more of the craziness of Placet in Brown's story comes from its orbiting two suns, one of matter and the other of antimatter. Larry Niven described an antimatter planet in "Flatlander" (1967). The correspondence between an electron and its antiparticle, thepositron, was used by Blish in "Beep" (1954) as the basis of a method of instantaneous signalling, following ideas suggested by the original description by Paul Dirac (1902-1984) of the positron (DIRAC COMMUNICATOR). The formation of matter and antimatter universes in thefirst fraction of a second of creation, and some extremely hypothetical consequences for the nature of our reality, are treated in The Jonah Kit (1975) by Ian WATSON, who blends real and imaginary physics very adroitlythroughout the book.Stories which turn on fairly elementary points of physics include: Arthur C. CLARKE's "A Slight Case of Sunstroke" (1958), in which the spectators at a football match hold their glossy programmes so as to form an enormous parabolic mirror focusing sunlight on the referee; Clarke's "Silence Please" (1954), in which the phenomenon of interference is used as the basis for a silence generator; Robert A. HEINLEIN's "Let There Be Light" (1940 as by Anson MacDonald), whichsuggests that the relationship between radio waves and light waves could be used to provide a cold light source; and Larry Niven's "A Kind of Murder" (1974), in which the fact that potential energy and heat areinterchangeable forms of energy is exploited in an attempt at a perfect murder. The Dispossessed (1974) by Ursula K. LE GUIN is unusual in sf in that much of the story is focused on an attempt to recreate the thought processes and psychology of a physicist whose theories regarding simultaneity and the nature of time would create a revolution in physics comparable to that initiated by Einstein's Relativity theories. Le Guin's physics is imaginary though plausible and presented with conviction (IMAGINARY SCIENCE); her psychology might very well be accurate.Finally,since measurement is of fundamental importance in physics, this is the place to mention those stories that make the point that all physical measurements are relative. It was put in its simplest form by Katherine MACLEAN in "Pictures Don't Lie" (1951); it was put further into thecontext of physics by Philip LATHAM in "The Xi Effect" (1950), observing that there would be no observable consequences if everything in the Universe were to contract at the same rate (although the contraction wouldbecome observable if the wavelength of visible light stayed constant). Referring to time rather than length, Blish described in "Common Time"(1953) an oscillating discrepancy between a man's internal (mental) time and external (physical) time.Since the appearance of black holes in sf in the mid-1970s there has been something of an upsurge of physics themes; most relate to COSMOLOGY, but a number of stories concern quantum physics, not necessarily cosmological. Often these stories take metaphors from physics rather than physics itself; one of the first such ideas drawn from physics and thereafter used as a metaphor is ENTROPY (which is from thermodynamics, not quantum physics), and many such stories are discussed under that head. An even older example is Heisenberg's Uncertainty Principle, formulated in 1927, which regularly appears both within andoutside sf, usually not in its strict meaning but as a kind of "proof" from the world of physics that we can no longer be sure of anything, and that all the old certainties are gone. Schrodinger's Cat has popped up so often as almost to have become a CLICHE, as in "Schrodinger's Cat" (1974) by Ursula Le Guin, the Schrodinger's Cat trilogy (1979-81) by Robert Anton WILSON, The Coming of the Quantum Cats (1986) by Frederik POHL and"Schrodinger's Kitten" (1988) by George Alec EFFINGER. The attraction of this idea is that, according to the many-worlds interpretation of quantum physics formulated in the late 1960s by Hugh Everett, John Wheeler and Neill Graham-who took the fate of Schrodinger's possibly murdered cat (ahalf-dead, half-live wave function until somebody comes to look at it, at which point it collapses into one state or the other) as their starting point-the cat's fate gives an imaginative warrant for the existence of ALTERNATE WORLDS. Perhaps the wittiest use of ideas from quantum physicsappears in Connie WILLIS's "At the Rialto" (1989), which describes the extraordinary quantum uncertainties that vex a congress of quantum physicists at a large hotel. It behoves us all to remember the remark of physicist Niels Bohr (1885-1962): "Those who are not shocked when they first come across quantum theory cannot possibly have understood it."Among those who use ideas from physics with considerable sophistication and know-how are a number of writers of SPACE OPERA and adventure on other planets, including old-stagers like Larry Niven and Arthur C. Clarke but also newer authors, in their turn expanding the genre, like Stephen BAXTER, Greg BEAR, Gregory BENFORD, David BRIN, Robert L. FORWARD, Paul J.MCAULEY, Charles SHEFFIELD and John E. STITH. More detailed accounts of their work, and other relevant users of themes from physics, will be found by following up the various cross-references above as well as BIG DUMB OBJECTS, DYSON SPHERE, FORCE FIELD, ION DRIVE, MATHEMATICS, SPACE WARP andTACHYONS.

Science Fiction and Fantasy Encyclopedia. . 2011.


Look at other dictionaries:

  • Physics — (Greek: physis φύσις), in everyday terms, is the science of matter [R. P. Feynman, R. B. Leighton, M. Sands (1963), The Feynman Lectures on Physics , ISBN 0 201 02116 1 Hard cover. p.1 1 Feynman begins with the atomic hypothesis.] and its motion …   Wikipedia

  • Physics — Специализация: Физика Периодичность: еженедельно Язык: Английский Адрес редакции: Главный редактор: Джессика Томас Учредител …   Википедия

  • physics — [fiz′iks] n. [transl. of L physica, physics < Gr (ta) physika (lit., natural things), name given to the physical treatises of ARISTOTLE: see PHYSIC] 1. Obs. natural philosophy 2. a) the science dealing with the properties, changes,… …   English World dictionary

  • Physics — Phys ics, n. [See {Physic}.] The science of nature, or of natural objects; that branch of science which treats of the laws and properties of matter, and the forces acting upon it; especially, that department of natural science which treats of the …   The Collaborative International Dictionary of English

  • physics — UK US /ˈfɪzɪks/ noun [U] ► the scientific study of matter and energy: »He studied Physics at university before becoming an engineer. »a physics lab/researcher/degree …   Financial and business terms

  • physics — (n.) 1580s, natural science, from PHYSIC (Cf. physic) in sense of natural science. Also see ICS (Cf. ics). Specific sense of science treating of properties of matter and energy is from 1715. Physicist coined 1840 by the Rev. William Whewell (1794 …   Etymology dictionary

  • physics — physics, philosophy of …   Philosophy dictionary

  • physics — ► PLURAL NOUN (treated as sing. ) 1) the branch of science concerned with the nature and properties of matter and energy. 2) the physical properties and phenomena of something. DERIVATIVES physicist noun. ORIGIN Latin physica natural things …   English terms dictionary

  • physics — /fiz iks/, n. (used with a sing. v.) the science that deals with matter, energy, motion, and force. [1580 90; see PHYSIC, ICS] * * * I Science that deals with the structure of matter and the interactions between the fundamental constituents of… …   Universalium

  • PHYSICS — The material presented in this entry emphasizes those contributions which were important in arriving at verified present day scientific results, rather than those that may have appeared important at the time. Unavoidably it will overlap in parts… …   Encyclopedia of Judaism

  • physics — noun ADJECTIVE ▪ classical, Newtonian ▪ modern ▪ Einstein restructured modern physics. ▪ applied, experimental, theoretical …   Collocations dictionary

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”

We are using cookies for the best presentation of our site. Continuing to use this site, you agree with this.