Serendipity - My Repeated Saviour

Serendipity is the effect by which one accidentally stumbles upon something fortunate, especially while looking for something entirely unrelated. The word has been voted as one of the ten English words that were hardest to translate in June 2004 by a British translation company.^[1] However, due to its sociological use, the word has been imported into many other languages.^[2]

The intended subject of the photograph was a perched Black-crowned Night Heron; the photographer discovered later that the image serendipitously included a Pileated Woodpecker.

Etymology

The word derives from Serendip, the Persian name for Sri Lanka. The Persian word itself has been derived from Sanskrit name for Sri Lanka viz. Swarnadweep (Swarna meaning golden and Dweep meaning island) ^[3] and was coined by Horace Walpole on 28 January 1754 in a letter he wrote to his friend Horace Mann (not to be confused with the famed American educator, see Horace Mann), an Englishman then living in Florence. The letter read,

"It was once when I read a silly fairy tale, called The Three Princes of Serendip: as their highnesses traveled, they were always making discoveries, by accidents and sagacity, of things which they were not in quest of: for instance, one of them discovered that a camel blind of the right eye had traveled the same road lately, because the grass was eaten only on the left side, where it was worse than on the right—now do you understandserendipity? One of the most remarkable instances of this accidental sagacity (for you must observe that no discovery of a thing you are looking for, comes under this description) was of my Lord Shaftsbury, who happening to dine at Lord Chancellor Clarendon's, found out the marriage of the Duke of York and Mrs. Hyde, by the respect with which her mother treated her at table.

^{Role in science, technology and life}

One aspect of Walpole's original definition of serendipity that is often missed in modern discussions of the word is the "sagacity" of being able to link together apparently innocuous facts to come to a valuable conclusion. Thus, while some scientists and inventors are reluctant about reporting accidental discoveries, others openly admit its role; in fact serendipity is a major component of scientific discoveries and inventions. According to M.K. Stoskopf^[5] "it should be recognized that serendipitous discoveries are of significant value in the advancement of science and often present the foundation for important intellectual leaps of understanding".

The amount of contribution of serendipitous discoveries varies extensively among the several scientific disciplines. Pharmacology and chemistry are probably the fields where serendipity is more common.

Most authors who have studied scientific serendipity both in a historical, as well as in an epistemological point of view, agree that a prepared and open mind is required on the part of the scientist or inventor to detect the importance of information revealed accidentally. This is the reason why most of the related accidental discoveries occur in the field of specialization of the scientist. About this, Albert Hofmann, the Swiss chemist who discovered LSD properties by unintentionally ingesting it at his lab, wrote

It is true that my discovery of LSD was a chance discovery, but it was the outcome of planned experiments and these experiments took place in the framework of systematic pharmaceutical, chemical research. It could better be described as serendipity.

The French scientist Louis Pasteur also famously said: "In the fields of observation chance favors only the prepared mind."^[6] This is often rendered as "Chance favors the prepared mind." William Shakespeare expressed the same sentiment 250 years earlier in act 4 of his play Henry V: "All things are ready if our minds be so."

History, of course, does not record accidental exposures of information which could have resulted in a new discovery, and we are justified in suspecting that they are many. There are several examples of this, however, and prejudice of preformed concepts is probably the largest obstacle. See for example [1] for a case where this happened (the rejection of an accidental discovery in the field of self-stimulation of the limbic system in humans).

Examples in science and technology

Economics

M. E. Graebner describes serendipitous value in the context of the acquisition of a business as "windfalls that were not anticipated by the buyer prior to the deal": i.e., unexpected advantages or benefits incurred due to positive synergy effects of the merger. Ikujiro Nonaka (1991,p.94 November-December issue of HBR) points out that the serendipitous quality of innovation is highly recognized by managers and links the success of Japanese enterprises to their ability to create knowledge not by processing information but rather by "tapping the tacit and often highly subjective insights, intuitions, and hunches of individual employees and making those insights available for testing and use by the company as a whole".

Chemistry

• Lysergic Acid Diethylamide (or LSD) by Albert Hofmann, who found this potent hallucinogen while trying to find medically useful derivatives in ergot, a fungus growing on wheat.
• Gelignite by Alfred Nobel, when he accidentally mixed collodium (gun cotton) with nitroglycerin
• Polymethylene by Hans von Pechmann, who prepared it by accident in 1898 while heating diazomethane
• Low density polyethylene by Eric Fawcett and Reginald Gibson at the ICI works in Northwich, England. It was the first industrially practical polyethylene synthesis and was discovered (again by accident) in 1933
• Silly Putty by James Wright, on the way to solving another problem: finding a rubber substitute for the United States during World War II.
• Chemical synthesis of urea, by Friedrich Woehler. He was attempting to produce ammonium cyanate by mixing potassium cyanate and ammonium chloride and got urea, the first organic chemical to be synthesised, often called the 'Last Nail' of the coffin of the Élan vital Theory
• Pittacal, the first synthetic dyestuff, by Carl Ludwig Reichenbach. The dark blue dye appeared on wooden posts painted with creosote to drive away dogs who urinated on them.
• Mauve, the first aniline dye, by William Henry Perkin. At the age of 18, he was attempting to create artificial quinine. An unexpected residue caught his eye, which turned out to be the first aniline dye—specifically, mauveine, sometimes called aniline purple.
• Racemization, by Louis Pasteur. While investigating the properties of sodium ammonium tartrate he was able to separate for the first time the two optical isomers of the salt. His luck was twofold: it is the only racemate salt to have this property, and the room temperature that day was slightly below the point of separation.
• Teflon, by Roy J. Plunkett, who was trying to develop a new gas for refrigeration and got a slick substance instead, which was used first for lubrication of machine parts
• Cyanoacrylate-based Superglue (a.k.a. Krazy Glue) was accidentally twice discovered by Dr. Harry Coover, first when he was developing a clear plastic for gunsights and later, when he was trying to develop a heat-resistant polymer for jet canopies.
• Scotchgard moisture repellant, used to protect fabrics and leather, was discovered accidentally in 1953 by Patsy Sherman. One of the compounds she was investigating as a rubber material that wouldn't deteriorate when in contact with aircraft fuel spilled onto a tennis shoe and would not wash out; she then considered the spill as a protectant against spills.
• Cellophane, a thin, transparent sheet made of regenerated cellulose, was developed in 1908 by Swiss chemist Jacques Brandenberger, as a material for covering stain-proof tablecloth.
• The chemical element helium. British chemist William Ramsay isolated helium while looking for argon but, after separating nitrogen and oxygen from the gas liberated by sulfuric acid, noticed a bright-yellow spectral line that matched the D3 line observed in thespectrum of the Sun.
• The chemical element Iodine was discovered by Bernard Courtois in 1811, when he was trying to remove residues with strong acid from the bottom of his saltpeter production plant which used seaweed ashes as a prime material.
• Polycarbonates, a kind of clear hard plastic
• The synthetic polymer celluloid was discovered by British chemist and metallurgist Alexander Parkes in 1856, after observing that a solid residue remained after evaporation of the solvent from photographic collodion. Celluloid can be described as the first plastic used for making solid objects (the first ones being billiard balls, substituting for expensive ivory).
• Rayon, the first synthetic silk, was discovered by French chemist Hilaire de Chardonnet, an assistant to Louis Pasteur. He spilled a bottle of collodion and found later that he could draw thin strands from the evaporated viscous liquid.
• The possibility of synthesizing indigo, a natural dye extracted from a plant with the same name, was discovered by a chemist named Sapper who was heating coal tar when he accidentally broke a thermometer whose mercury content acted as a catalyst to producephthalic anhydride, which could readily be converted into indigo.
• The dye monastral blue was discovered in 1928 in Scotland, when chemist A.G. Dandridge heated a mixture of chemicals at high temperature in a sealed iron container. The iron of the container reacted with the mixture, producing some pigments calledphthalocyanines. By substituting copper for iron he produced an even better pigment called 'monastral blue', which became the basis for many new coloring materials for paints, lacquers and printing inks.
• Acesulfame, an artificial sweetener, was discovered accidentally in 1967 by Karl Claus at Hoechst AG.
• Another sweetener, cyclamate, was discovered by graduate student Michael Sveda, when he smoked a cigarette accidentally contaminated with a compound he had recently synthesized.
• Aspartame (NutraSweet) was accidentally ingested by G.D. Searle & Company chemist James M. Schlatter, who was trying to develop a test for an anti-ulcer drug.
• Saccharin was accidentally discovered during research on coal tar derivatives.
• Saran (plastic) was discovered when Ralph Wiley had trouble washing beakers used in development of a dry cleaning product. It was soon used to make plastic wrap.
• A new blue pigment with almost perfect properties was discovered accidentally by scientists at Oregon State University after heating manganese oxide ^[7]

Pharmacology

• Penicillin by Alexander Fleming. He failed to disinfect cultures of bacteria when leaving for his vacations, only to find them contaminated with Penicillium molds, which killed the bacteria. However, he had previously done extensive research into antibacterial substances.
• The psychedelic effects of LSD by Albert Hofmann. A chemist, he unintentionally absorbed a small amount of it upon investigating its properties, and had the first acid trip in history, while cycling to his home in Switzerland; this is commemorated among LSD users annually as Bicycle Day.
• 5-fluorouracil's therapeutic action on actinic keratosis, was initially investigated for its anti-cancer actions
• Minoxidil's action on baldness; originally it was an oral agent for treating hypertension. It was observed that bald patients treated with it grew hair too.
• Viagra (sildenafil citrate), an anti-impotence drug. It was initially studied for use in hypertension and angina pectoris. Phase I clinical trials under the direction of Ian Osterloh suggested that the drug had little effect on angina, but that it could induce marked penileerections.
• Retin-A anti-wrinkle action. It was a vitamin A derivative first used for treating acne. The accidental result in some older people was a reduction of wrinkles on the face
• The libido-enhancing effect of l-dopa, a drug used for treating Parkinson's disease. Older patients in a sanatorium had their long-lost interest in sex suddenly revived.
• The first benzodiazepine, chlordiazepoxide (Librium) was discovered accidentally in 1954 by the Austrian scientist Dr Leo Sternbach (1908–2005), who found the substance while cleaning up his lab.^{[citation needed]} Sternbach's personal account, quoted on the discussion pages, makes it clear that the discovery of the benzodiazepines was at most fortuitous but certainly not serendipitous. This example should be removed. See Discussion Pages.
• The first anti-psychotic drug, chlorpromazine, was discovered by French pharmacologist Henri Laborit. He wanted to add an anti-histaminic to a pharmacological combination to prevent surgical shock and noticed that patients treated with it were unusually calm before the operation.
• The anti-cancer drug cisplatin was discovered by Barnett Rosenberg. He wanted to explore what he thought was an inhibitory effect of an electric field on the growth of bacteria. It was rather due to an electrolysis product of the platinum electrode he was using.
• The anesthetic nitrous oxide (laughing gas). Initially well known for inducing altered behavior (hilarity), its properties were discovered when British chemist Humphry Davy tested the gas on himself and some of his friends, and soon realised that nitrous oxide considerably dulled the sensation of pain, even if the inhaler was still semi-conscious.
• The anesthetic ether.^{[citation needed]} Several doctors (Long, Morgan and others) knew of the properties of ether and INDEPENDENTLY introduced its use in their surgeries. The discovery of ether as an anesthetic was NOT serendipitous. This example should be removed. See Discussion Pages.
• Mustine – a derivative of mustard gas (a chemical weapon), used for the treatment of some forms of cancer. In 1943, physicians noted that the white cell counts of US soldiers, accidentally exposed when a cache of mustard gas shells were bombed in Bari, Italy, decreased, and mustard gas was investigated as a therapy for Hodgkin's lymphoma.
• The first oral contraceptive (a.k.a. The Pill) was discovered by Dr. Carl Djerassi accidental production of synthetic progesterone and its intentional modification to allow for oral intake.^{[citation needed]} The development of oral contraceptives by Syntex was a deliberate, collaborative research program and in no way serendipitous. This example should be removed. See Discussion Pages.
• Prontosil, an antibiotic of the sulfa group was an azo dye. German chemists at Bayer had the wrong idea that selective chemical stains of bacteria would show specific antibacterial activity. Prontosil had it, but in fact it was due to another substance metabolised from it in the body, sulfanilimide.

Medicine and Biology

• Bioelectricity, by Luigi Galvani. He was dissecting a frog at a table where he had been conducting experiments with static electricity. His assistant touched an exposed sciatic nerve of the frog with a metal scalpel which had picked up a charge, provoking a musclecontraction.
• Neural control of blood vessels, by Claude Bernard
• Anaphylaxis, by Charles Richet. When he tried to reuse dogs that had previously shown allergic reactions to sea anemone toxin, the reactions developed much faster and were more severe the second time.
• The role of the pancreas in glucose metabolism, by Oskar Minkowski. Dogs that had their pancreas removed for an unrelated physiological investigation urinated profusely; the urine also attracted flies, signaling its high glucose content.
• Coronary catheterization was discovered as a method when a cardiologist at the Cleveland Clinic accidentally injected radiocontrast into the coronary artery instead of the left ventricle.
• The mydriatic effects of belladonna extracts, by Friedrich Ferdinand Runge
• Interferon, an antiviral factor, was discovered accidentally by two Japanese virologists, Yasu-ichi Nagano and Yasuhiko Kojima while trying to develop an improved vaccine for smallpox.
• The hormone melatonin was discovered in 1917 when it was shown that extract of bovine pineal glands lightened frog skin. In 1958 its chemical structure was defined by Aaron B. Lerner and in the mid-70s it was demonstrated that also in humans the production of melatonin exhibits and influences a circadian rhythm.

Physics and Astronomy

• Discovery of the planet Uranus by William Herschel. Herschel was looking for comets, and initially identified Uranus as a comet until he noticed the circularity of its orbit and its distance and suggested that it was a planet, the first one discovered since antiquity.
• Infrared radiation, again by William Herschel, while investigating the temperature differences between different colors of visible light by dispersing sunlight into a spectrum using a glass prism. He put thermometers into the different visible colors where he expected a temperature increase, and one as a control to measure the ambient temperature in the dark region beyond the red end of the spectrum. The thermometer beyond the red unexpectedly showed a higher temperature than the others, showing that there was non-visibleradiation beyond the red end of the visible spectrum.
• The thermoelectric effect was discovered accidentally by Estonian physicist Thomas Seebeck in 1821, who found that a voltage developed between the two ends of a metal bar when it was submitted to a difference of temperature.
• Electromagnetism, by Hans Christian Ørsted. While he was setting up his materials for a lecture, he noticed a compass needle deflecting from magnetic north when the electric current from the battery he was using was switched on and off.
• Radioactivity, by Henri Becquerel. While trying to investigate phosphorescent materials using photographic plates, he stumbled upon uranium.
• X rays, by Wilhelm Roentgen. Interested in investigating cathodic ray tubes, he noted that some fluorescent papers in his lab were illuminated at a distance although his apparatus had an opaque cover
• S. N. Bose discovered Bose-Einstein statistics when a mathematical error surprisingly explained anomalous data.
• The first demonstration of wave–particle duality during the Davisson–Germer experiment at Bell Labs after a leak in the vacuum system and attempts to recover from it unknowingly altered the crystal structure of the nickel target and led to the accidental experimental confirmation of the de Broglie hypothesis. Davisson went on to share the 1937 Nobel Prize in Physics for the discovery.
• Cosmic Microwave Background Radiation, by Arno A. Penzias and Robert Woodrow Wilson. What they thought was excess thermal noise in their antenna at Bell Labs was due to the CMBR.
• Cosmic gamma-ray bursts were discovered in the late 1960s by the US Vela satellites, which were built to detect nuclear tests in the Soviet Union
• The rings of Uranus were discovered by astronomers James L. Elliot, Edward W. Dunham, and Douglas J. Mink on March 10, 1977. They planned to use the occultation of the star SAO 158687 by Uranus to study the planet's atmosphere, but found that the star disappeared briefly from view five times both before and after it was eclipsed by the planet. They deduced that a system of narrow rings was present.^[8]
• Pluto's moon Charon was discovered by US astronomer James Christy in 1978. He was going to discard what he thought was a defective photographic plate of Pluto, when his Star Scan machine broke down. While it was being repaired he had time to study the plate again and discovered others in the archives with the same "defect" (a bulge in the planet's image which was actually a large moon).
• High-temperature superconductivity was discovered serendipitously by physicists Johannes Georg Bednorz and Karl Alexander Müller, ironically when they were searching for a material that would be a perfect electrical insulator (nonconducting). They won the 1987 Nobel Prize in Physics.
• Metallic hydrogen was found accidentally in March 1996 by a group of scientists at Lawrence Livermore National Laboratory, after a 60-year search.

Inventions

• Discovery of the principle behind inkjet printers by a Canon engineer. After putting his hot soldering iron by accident on his pen, ink was ejected from the pen's point a few moments later.
• Vulcanization of rubber, by Charles Goodyear. He accidentally left a piece of rubber mixture with sulfur on a hot plate, and produced vulcanized rubber
• Safety glass, by French scientist Edouard Benedictus. In 1903 he accidentally knocked a glass flask to the floor and observed that the broken pieces were held together by a liquid plastic that had evaporated and formed a thin film inside the flask.
• Corn flakes and wheat flakes (Wheaties) were accidentally discovered by the Kelloggs brothers in 1898, when they left cooked wheat unattended for a day and tried to roll the mass, obtaining a flaky material instead of a sheet.
• The microwave oven was invented by Percy Spencer while testing a magnetron for radar sets at Raytheon, he noticed that a peanut candy bar in his pocket had melted when exposed to radar waves.
• Pyroceramic (used to make Corningware, among other things) was invented by S. Donald Stookey, a chemist working for the Corning company, who noticed crystallization in an improperly cooled batch of tinted glass.
• The Slinky was invented by US Navy engineer Richard T. James after he accidentally knocked a torsion spring off his work table and observed its unique motion.
• Arthur Fry happened to attend a 3M college's seminar on a new "low-tack" adhesive and, wanting to anchor his bookmarks in his hymnal at church, went on to invent Post-It Notes.

The chocolate chip cookie was invented through serendipity

• Chocolate chip cookies were invented by Ruth Wakefield when she attempted to make chocolate drop cookies. She did not have the required chocolate so she broke up a candy bar and placed the chunks into the cookie mix. These chunks later morphed into what is now known as chocolate chip cookies.

Serendipitous ideas

Some ideas and concepts that came to scientists through accidents or even dreams are also considered a kind of serendipity. Some examples (coincidentally all are regarded with suspicion by science historians):

• Isaac Newton's famed apple falling from a tree, leading to his musings about the nature of gravitation.
• The German chemist Friedrich August Kekulé von Stradonitz dreamed about Ourobouros, a snake running around and forming a circle, leading to his solution of the closed chemical structure of cyclic compounds, such as benzene.
• Archimedes' prototypical cry of Eureka when he realised that his body displacing water in the bathtub allowed him to measure the weight:volume (ratio) of any irregular body, such as a gold crown etc.

Examples in exploration

Stories of accidental discovery in exploration abound, of course, because the aim of exploration is to find new things and places. The principle of serendipity applies here, however, when the explorer had one aim in mind and found another unexpectedly. In addition, discoveries have been made by people simply attempting to reach a known destination but who departed from the customary or intended route for a variety of reasons. Some classical cases were discoveries of the Americas by explorers with other aims.

• The first European to see the coast of North America was reputedly Bjarni Herjólfsson, who was blown off course by a storm in 985 or 986 while trying to reach Greenland.
• Christopher Columbus was looking for a new way to India in 1492 and wound up landing in The Americas. Native Americans were therefore called Indians.
• Although the first European to see and step on South America was Christopher Columbus in Northeast Venezuela in 1498, Brazil was also discovered by accident, first by Spaniard Vicente Pinzon in 1499, who was only trying to explore the West Indies previously discovered by him and Columbus, and stumbled upon the Northeast of Brazil, in the region now known as Cabo de Santo Agostinho, in the state of Pernambuco. He also discovered the Amazon and Oiapoque rivers.
• Pedro Álvares Cabral, a Portuguese admiral, who was sailing with his fleet to India via the South African route discovered by Vasco da Gama, headed southwest to avoid the calms off the coast of the Gulf of Guinea, and so encountered the coast of Brazil in 1500.

Uses of serendipity

Serendipity is used as a sociological method in Anselm L. Strauss' and Barney G. Glaser's Grounded Theory, building on ideas by sociologist Robert K. Merton, who in Social Theory and Social Structure (1949) referred to the "serendipity pattern" as the fairly common experience of observing an unanticipated, anomalous and strategic datum which becomes the occasion for developing a new theory or for extending an existing theory. Robert K. Merton also coauthored (with Elinor Barber) The Travels and Adventures of Serendipity(Princeton: Princeton University Press, 2003), which traces the origins and uses of the word "serendipity" since it was coined. The book is "a study in sociological semantics and the sociology of science", as the subtitle of the book declares. It further develops the idea of serendipity as scientific "method" (as juxtaposed with purposeful discovery by experiment or retrospective prophecy).

Related terms

William Boyd coined the term zemblanity to mean somewhat the opposite of serendipity: "making unhappy, unlucky and expected discoveries occurring by design".^[9] It derives from Novaya Zemlya (or Nova Zembla), a cold, barren land with many features opposite to the lush Sri Lanka (Serendip). On this island Willem Barents and his crew were stranded while searching for a new route to the east.

Bahramdipity is derived directly from Bahram Gur as characterized in the "Three Princes of Serendip". It describes the suppression of serendipitous discoveries or research results by powerful individuals.^[10]

• Synchronicity
• Coincidence
• Lateral thinking
• Insight