The major system (also called the phonetic number system, phonetic mnemonic system, or Hérigone's mnemonic system) is a mnemonic technique used to help in memorizing numbers.

The system works by converting numbers into consonants, then into words by adding vowels. The system works on the principle that images can be remembered more easily than numbers.

One notable explanation of this system was given in Martin Gardner's book The First Scientific American Book of Mathematical Puzzles and Diversions (just Mathematical Puzzles and Diversions in the UK edition), which has since been republished in The New Martin Gardner Mathematical Library as Hexaflexagons, Probability Paradoxes, and the Tower of Hanoi. In this, Gardner traces the history of the system back to similar systems of Pierre Hérigone and Richard Grey with uses by Lewis Carroll and Gottfried Wilhelm Leibniz.[1]

The system

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Each numeral is associated with one or more consonants. The link is to the sound, not the letter. (For example, the letters C in "cat", "Cynthia", and "cello" each have different values in the system – 7, 0, and 6, respectively.) Vowels, semivowels and the consonant /h/ are ignored. These can be used as "fillers" to make sensible words from the resulting consonant sequences. A standard mapping[2] is:

Numeral Sounds (IPA) Commonly associated letters Mnemonic and remarks
0 /s/, /z/ s, soft c, z, x (in xylophone) Zero begins with z (and /z/). Upper case S and Z, as well as lower case s and z, have zero vertical strokes each, as with the numeral 0. The alveolar fricatives /s/ and /z/ form a voiceless and voiced pair.
1 /t/, /d/, /θ/, /ð/ t, d, th (both in thing and this) Upper case T and D, as well as lower case t and d have one vertical stroke each, as with the numeral 1. The alveolar stops /t/ and /d/ form a voiceless and voiced pair, as do the similar-sounding dental fricatives /θ/ and /ð/, though some variant systems may omit the latter pair.
2 /n/ n Upper case N and lower case n each have two vertical strokes and two points on the baseline.
3 /m/ m Lower case m has three vertical strokes. Both upper case M and lower case m each have three points on the baseline and look like the numeral 3 on its side.
4 /r/ r, l (as sounded in colonel) Four ends with r (and /r/ in rhotic accents).
5 /l/ l L is the Roman numeral for 50. Among the five digits of one's left hand, the thumb and index fingers also form an L.
6 /tʃ/, /dʒ/, /ʃ/, /ʒ/ ch (in cheese and chef), j, soft g, sh, c (as sounded in cello and special), cz (as sounded in Czech), s (as sounded in tissue and vision), sc (as sounded in fascist), sch (as sounded in schwa and eschew), t (as sounded in ration and equation), tsch (in putsch), z (in seizure) Upper case G looks like the numeral 6 and lower case g looks like the numeral 6 rotated 180°. Lower case script j tends to have a lower loop, like the numeral 6. In some serif fonts, upper case CH, SH and ZH each have six serifs. The postalveolar affricates /tʃ/ and /dʒ/ form a voiceless and voiced pair, as do the similar-sounding postalveolar fricatives /ʃ/ and /ʒ/. CHurch has six letters.
7 /k/, /ɡ/ k, hard c, q, hard g, ch (as sounded in loch), Both upper case K and lower case k look like two small 7s on their sides. In some fonts, the lower-right part of the upper case G looks like a 7. G is also the 7th letter of the alphabet. The velar stops /k/ and /ɡ/ form a voiceless and voiced pair.
8 /f/, /v/ f, ph (in phone), v, gh (as sounded in laugh) Lower case script f, which tends to have an upper and lower loop, looks like a figure-8. The labiodental fricatives /f/ and /v/ form a voiceless and voiced pair.
9 /p/, /b/ p, b Upper case P and lower case p look like the numeral 9 flipped horizontally. Lower case b looks like the numeral 9 turned 180°. The labial stops /p/ and /b/ form a voiceless and voiced pair.
Unassigned /h/, /j/, /w/, /x/, vowel sounds h, y, w, a, e, i, o, u, silent letters, ch (in chutzpah), j (in Hallelujah and jalapeno), ll (in tortilla) Vowel sounds, semivowels (/j/ and /w/) and /h/ do not correspond to any number. They can appear anywhere in a word without changing its number value.
(2, 27 or 7) /ŋ/ ng, n before k, hard c, q, hard g or x Variant systems differ about whether /ŋ/ should encode 2 and classified together with /n/, 7 and classified together with /k/ and /ɡ/ or even 27 (e.g. ring could be 42, 47 or 427). When a /k/ and /ɡ/ is pronounced separately after the /ŋ/, variant systems that chose /ŋ/ to be 27 also disagree if an extra 7 should be written (e.g. finger could be 8274 or 82774, or if /ŋ/ is chosen to be 7, 8774).

The groups of similar sounds and the rules for applying the mappings are almost always fixed, but other hooks and mappings can be used as long as the person using the system can remember them and apply them consistently.

Each numeral maps to a set of similar sounds with similar mouth and tongue positions. The link is phonetic, that is to say, it is the consonant sounds that matter, not the spelling. Therefore, a word like action would encode the number 762 (/k/-/ʃ/-/n/), not 712 (k-t-n). Double letters are disregarded when not pronounced separately, e.g. muddy encodes 31 (/m/-/d/), not 311, but midday encodes 311 (/m/-/d/-/d/) while accept encodes 7091 (/k/-/s/-/p/-/t/) since the ds and cs are pronounced separately. x encodes 70 when pronounced as /ks/ or /gz/ (e.g. in fax and exam) and 76 when pronounced /kʃ/ or /gʒ/ (e.g. in anxious or luxury); z encodes 10 when pronounced /ts/ (e.g. in pizza). In ghost (701, /ɡ/-/s/-/t/) and enough (28, /n/-/f/), gh is being encoded by different numerals. Usually, a rhotic accent is assumed, e.g. fear would encode 84 (/f/-/r/) rather than 8 (/f/).

Often the mapping is compact. Hindquarters, for example, translates unambiguously to 2174140 (/n/-/d/-/k/-/r/-/t/-/r/-/z/), which amounts to a twelve-letter word encoded by seven digits in seven letters, and can be easily visualized.

Each numeral maps to a set of similar sounds with similar mouth and tongue positions. For most people it would be easier to remember 3.1415927 (an approximation of the mathematical constant pi) as:

meteor (314, /m/-/t/-/r/)
tail (15, /t/-/l/)
pink (927, /p/-/ŋ/-/k/, and taking /ŋ/ to be 2)

Short term visual memory of imagined scenes allows large numbers of digits to be memorized with ease. Longer-term memory may require the formulation of more object-related mnemonics with greater logical connection, perhaps forming grammatical sentences that apply to the matter rather than just strings of images.

The system can be employed with phone numbers. One would typically make up multiple words, preferably a sentence, or an ordered sequence of images featuring the owner of the number.

The Major System can be combined with a peg system for remembering lists, and is sometimes used also as a method of generating the pegs. It can also be combined with other memory techniques such as rhyming, substitute words, or the method of loci. Repetition and concentration using the ordinary memory is still required.

It is possible to use a computer to automatically translate the number into a set of words. One can then pick the best of several alternatives. Such programs include "Numzi"[3] "Rememberg"[4] "Fonbee",[5] the freeware "2Know",[6] and the website "pinfruit".[7]

Example words

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Some of these example words may belong to more than one word category.

1-digit pegs
0 1 2 3 4 5 6 7 8 9
noun hose hat hen home arrow whale shoe cow hoof pie
verb sew hate know aim row heal chew hook view buy
adjective easy hot new yummy hairy oily itchy gay heavy happy
2-digit pegs
00 01 02 03 04 05 06 07 08 09
noun sauce seed sun sumo sierra soil sewage sky sofa soap
verb assess swat assign assume sorrow sell switch soak save sob
adjective sissy sad snowy awesome sorry slow swishy sick savvy sappy
10 11 12 13 14 15 16 17 18 19
noun daisy tattoo tuna dome diary tail dish dog dove tuba
verb tease edit widen time draw tell teach take defy type
adjective dizzy tight wooden tame dry tall whitish thick deaf deep
20 21 22 23 24 25 26 27 28 29
noun nose net onion enemy winery nail nacho neck knife honeybee
verb ionize unite nanny[b] name honour[a] inhale enjoy knock envy nab
adjective noisy neat neon numb narrow annual nudgy naggy naïve wannabe
30 31 32 33 34 35 36 37 38 39
noun mouse meadow moon mummy emery mole match mug movie map
verb amuse meet mine mime marry mail mash mock move mop
adjective messy mute mean mum[c] merry male mushy mucky mauve wimpy
40 41 42 43 44 45 46 47 48 49
noun rice road rain rum aurora railway roach rag roof rope
verb erase read ruin ram rear[a] rule reach rake arrive wrap
adjective rosy ready runny haram rare[a] royal rich rocky rough ripe
50 51 52 53 54 55 56 57 58 59
noun louse lady lion lime lorry lily leech leg lava lip
verb lose let align loom lure[a] lull latch lick love help
adjective lazy elite alien lame leery loyal lush lucky leafy loopy
60 61 62 63 64 65 66 67 68 69
noun cheese cheetah chin gem shrew chilli cha-cha chick chef jeep
verb chase cheat chain jam jury chill judge check achieve chop
adjective choosy chatty shiny sham cherry jolly Jewish shaky chief cheap
70 71 72 73 74 75 76 77 78 79
noun goose cat coin game crow clay cage cake cave cube
verb kiss quote weaken comb carry kill coach cook give copy
adjective cosy good keen gummy grey cool catchy quick goofy agape[d]
80 81 82 83 84 85 86 87 88 89
noun vase video fan ovum fairy fool veggie fig fife [e] vibe
verb fuse fight fine fume fry fly fetch fake viva [f] fob[g]
adjective fussy fat funny foamy furry foul fishy foggy fave fab
90 91 92 93 94 95 96 97 98 99
noun boss bead pony puma berry bell pouch bike beef pipe
verb oppose bite ban bomb bury peel patch poke pave pop
adjective busy bad bony balmy pro blue bushy back puffy baby
  • ^a Assumes a rhotic accent
  • ^b nanny (verb): to be overprotective towards[8]
  • ^c mum (adjective): silent; not saying a word[9]
  • ^d agape (adjective): with the mouth wide open, as in wonder, surprise, or eagerness[10]
  • ^e fife (noun): a high-pitched transverse flute used commonly in military and marching musical groups[11]
  • ^f viva (verb): to examine orally[12]
  • ^g fob (verb), archaic: to cheat; deceive[13]

History

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Mnemonic major system by Pierre Hérigone from 1634
 
Johann Just Winckelmann - mnemonic major system from 1648
 
Major system by Aimé Paris from 1825. – 1: T, D; 2: N, GN; 3: M; 4: R; 5: L, ILL; 6:CH, J; 7: K, GH; 8: F, V; 9: P, B; 0: S, Z
 
Mnemonic major system by Carl Otto Reventlow – 1843

A different memory system, the method of loci, was taught to schoolchildren for centuries, at least until 1584, "when Puritan reformers declared it unholy for encouraging bizarre and irreverent images."[14] The same objection can be made over the major system, with or without the method of loci. Mental images may be easier to remember if they are insulting, violent, or obscene (see Von Restorff effect).

Pierre Hérigone (1580–1643) devised the earliest version of the major system and published it in 1834. The system was further developed by Johann Just Winckelmann (pseudonym Stanislaus Mink von Weunsshein and published in 1648.[15] It was later elaborated upon by other users. In 1730, Richard Grey set forth a complicated system that used both consonants and vowels to represent the digits. In 1808 Gregor von Feinaigle introduced the improvement of representing the digits by consonants (but reversed the values of 8 and 9 compared to those listed above).

In 1825 Aimé Paris published the first known version of the major system in its modern form.[16]

In 1843, Carl Otto Reventlow (1817–1873) published a mnemonics textbook on a method similar to Paris' and traveled throughout Germany promoting it.

In 1844 Francis Fauvel Gouraud (1808–1847) delivered a series of lectures introducing his mnemonic system which was based on Aimé Paris' version. The lectures drew some of the largest crowds ever assembled to hear lectures of a "scientific" nature up to that time. This series of lectures was later published as Phreno-Mnemotechny or The Art of Memory in 1845 and his system received wide acclaim. According to Gouraud, Richard Grey indicated that a discussion on Hebrew linguistics in William Beveridge's Institutionum chronotogicarum libri duo, una cum totidem arithmetices chronologicæ libellis (London, 1669) inspired him to create his system of mnemotechniques which later evolved in to the major system.[17]

In the 1880s Marcus Dwight Larrowe, alias Silas Holmes, was teaching memory courses in the United States based on the Major System using a third alias Dr. Antoine Loisette. Because he was charging inordinate sums of money for a system which had obviously existed before, George S. Fellows published "Loisette" exposed (1888)[18] and included all the material of Larrowe's course which he determined not to be under copyright. The incident was notable enough to gain coverage by way of a book review in the journal Science.[19] A well-known student of Loisette's included Mark Twain whose endorsement Loisette used regularly to sell his course.[20][21][22] Following the revelation that he had not originated the system, Larrowe self-published his material under the pseudonym Dr. Antoine Loisette in 1895 and 1896 and it was later re-published by Funk & Wagnalls in 1899.[23][24]

In the late 1800s Christof Ludwig Poehlmann (aka Christopher Louis Pelman), a German who had emigrated to the United States, and William Joseph Ennever created and ran a series of booklets and memory courses using the system which resulted in The Pelman Schools, The Pelman Institute, and were generally known as Pelmanism.[25]

Poehlmann eventually moved back to Germany around 1910 where he continued offering his memory courses and training apparently with a focus on language learning. Bruno Fürst [fr] indicated that he studied under him for a year in 1911. Fürst later practiced criminal law in Frankfort in pre-Hitler Germany before fleeing, as a Jew, to Prague where he taught at Masaryk University until emigrating to New York in 1939.[26] In 1939, Fürst published Use your Head followed by How to Remember (1944), which was later reprinted as The Practical Way to Better Memory, and followed up with a series of 12 booklets entitled You Can Remember! A Home Study Course in Memory and Concentration (1946) which all extolled the system, which he called the "Basic List" and the "Number System" along with other mnemonic systems. In a 1946 profile in The New Yorker, Bruno indicates that German scholar Conradus Celtes originated the system.

The system described in this article would be re-popularized after 1957 and through the 1980s in several books by Harry Lorayne, a magician and best selling contemporary author on memory. The most popular of the titles featuring the system is The Memory Book: The Classic Guide to Improving Your Memory at Work, at School, and at Play (1974, with Jerry Lucas).[27]

This phonetic system had another resurgence in the 1990s thanks to the late night infomercials of Kevin Trudeau who sold a series of tapes called Mega Memory. He also published a similar book Kevin Trudeau's Mega Memory[28] which used this same system with some slight modifications.

 
Major Bartłomiej Beniowski (1800–1867)
Major system by Beniowski (1845)
Number Consonants
0 s, z
1 t, d, th
2 n
3 m
4 r
5 l
6 h, ch, sh, j
7 k, g
8 f, v, w
9 p, b

The name "Major System" may[29] refer to Major Bartlomiej Beniowski, who published a version of the system in his book, The Anti-Absurd or Phrenotypic English Pronouncing and Orthographical Dictionary in 1845.[30][31]

There is a reasonable historical possibility that the roots of the Major System are entangled with older systems of shorthand. It is certainly the case that the underlying structure of the Major System has a direct overlap with Gregg shorthand, which was a popular shorthand system in the late 1800s and early 1900s.[32]

Phonetic number memorization systems also occur in other parts of the world, such as the Katapayadi system going back to at least the 7th Century in India.

Practice

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Memory feats centered around numbers can be performed by experts who have learned a 'vocabulary' of at least one image for each 1 and 2-digit number, as these can then be combined to form narratives. Learning a vocabulary of 3-digit numbers is harder, because ten times more images need to be learned for each extra digit. Many mnemonists, however, can use a set of over 1000 images.

The combination of images into a narrative is easier to do rapidly than forming a coherent grammatical sentence. This pre-memorisation and practice at forming images reduces the time required to think up a good imaginary object while creating a strong memorable impression of it. The best words for this purpose are usually nouns, especially those for distinctive objects such as those which make strong impressions on a variety of senses (e.g. "Lime" for 53, as its taste, smell, colour, and even texture are distinctive) or which move (e.g. "arrow" for 4). For basic proficiency, a large vocabulary of image words is not really necessary, since when the table above is reliably learned, it is easy to form your own words ad hoc.

Indexing sequences

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Mnemonics often center around learning a complete sequence where all objects in that sequence that come before the one you are trying to recall must be recalled first. For instance, using the mnemonic "Richard of York gave battle in vain" to learn the colours of the rainbow; (red, orange, yellow, green, blue, indigo and violet) to remember what colour comes after indigo, one would have to recall the whole sequence. For a short sequence this may be trivial; for longer lists, it can become complicated and error-prone.

A good example would be in recalling the 53rd element of the periodic table. It might be possible for some people to construct and then learn a string of 53 or more items which you have substituted for the elements and then to recall them one by one, counting them off as you go, but it would be a great deal easier and less laborious/tedious to directly associate element 53 with, for example, a lime (a suitable mnemonic for 53) recalling some prior imagining of yours regarding a mishap where lime juice gets into one's eye - "eye" sounding like "I", the symbol for Iodine. This allows for random access directly to the item, without the need for recalling any previous items.

If you were remembering element 54 in the process of recalling the periodic table you could then recall an image for 54, for instance thinking of a friend called "Laura" (54) in the lotus position looking very Zen-like in order to remind yourself that element 54 is Xenon.

This is an example of combining the Major System with the peg system.

See also

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References

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  1. ^ Gardner, Martin (2008). Hexaflexagons, Probability Paradoxes, and the Tower of Hanoi. Cambridge University Press. pp. 116–122. ISBN 978-0-521-75615-0.
  2. ^ Hale-Evans, Ron (February 2006). Mind Performance Hacks (1 ed.). Sebastopol, CA: O'Reilly. p. 14. ISBN 0-596-10153-8.
  3. ^ Numzi mnemonic search engine (bi-directional)
  4. ^ Rememberg online mnemonic search engine
  5. ^ Fonbee Mnemonic Major System Encoder
  6. ^ 2Know Mnemonic Software
  7. ^ Web application for the mnemonic major system
  8. ^ "Nanny". Retrieved 2015-06-10.
  9. ^ "Mum". Retrieved 2015-06-10.
  10. ^ "Agape". Retrieved 2015-06-10.
  11. ^ "Fife". Retrieved 2015-06-10.
  12. ^ "Viva". Retrieved 2015-06-10.
  13. ^ "Fob". Retrieved 2015-06-10.
  14. ^ Brown, Derren (2006), Tricks of the Mind, Transworld Publishers, ISBN 978-1-905026-26-5.
  15. ^ Buzzan, Tony, 1989. Use Your Perfect Memory, Third Edition, Plume. Cited in Hale-Evans
  16. ^ History of the Major System
  17. ^ Fauvel-Gouraud, Francis (1845). Phreno-mnemotechny: Or, The Art of Memory. Wiley and Putnam. pp. 61–62. Beveridge.
  18. ^ Fellows, George S. (1888). "Loisette" exposed, together with Loisette's Complete System of Physiological Memory. G.S. Fellows & Co.
  19. ^ "Book review: "Loisette" exposed, together with Loisette's Complete System of Physiological Memory. By G. S. FELLOWS. New York, The Author. 8‡ 25 cents". Science. ns-12 (285). AAAS: 31–32. 1888-07-20. doi:10.1126/science.ns-12.285.31-c. Retrieved 2020-04-30.
  20. ^ Paine, Albert Bigelow (1912). Mark Twain, a Biography: The Personal and Literary Life of Samuel Langhorne Clemens. Vol. 4. Harper and Brothers. pp. 850–851.
  21. ^ Walsh, Thomas M.; Zlatic, Thomas D. (1981). "Mark Twain and the Art of Memory". American Literature. 53 (2). Duke University Press: 214–231. doi:10.2307/2926100. JSTOR 2926100.
  22. ^ "Mark Twain's Memory". New York Times. 1887-03-20. Retrieved 2020-05-01.
  23. ^ Loisette, Antoine (1895). Memory; a scientific, practical method of cultivating the faculties of attention, recollection and retention. self-published. p. 22.
  24. ^ Loisette, Antoinne (1899). Assimilative memory, or, How to attend and never forget. Funk & Wagnalls.
  25. ^ Barry Ennever (2020-03-24). "The Pelman Schools, The Pelman Institute and Pelmanism". Retrieved 2020-05-01.
  26. ^ Richard H. Rovere (1946-02-16). "Mnemonist". The New Yorker. Retrieved 2020-04-30.
  27. ^ Lorayne, Harry; Lucas, Jerry (1974). The Memory Book: The Classic Guide to Improving Your Memory at Work, at School, and at Play. Stein & Day Publishing. ISBN 9780812816648.
  28. ^ Trudeau, Kevin (1995). Kevin Trudeau's Mega Memory. William Morrow & Co. ISBN 9780688135829.
  29. ^ Major Beniowski and the Major System
  30. ^ History of the Major System
  31. ^ Beniowski (Maj.), Bartlomiej (1845). The Anti-Absurd or Phrenotypic English Pronouncing and Orthographical Dictionary. London: self-published.
  32. ^ The Mnemonic Major System and Gregg Shorthand Have the Same Underlying Structure
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Software

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  • iOS app to learn and practice the major system
  • Numzi - free web application for converting numbers to words/phrases and vice versa using the Major System. Covers the English language with over 220,000 words. Numzi also has an iOS app which is a portable Major System number-word converter.
  • 2Know is free Windows software for converting numbers to words (English, German, French).
  • Mnemisis Another free mnemonic program - runs on Linux, Mac OS X, and Windows
  • Memagine iPhone app that uses the system to teach how to recall a list of up to 100 items in any order
  • Major System iPhone app that helps you to create your own list of words and practice it
  • pinfruit.com Web application for the mnemonic major system
  • Major System Trainer Free personalisable web application for learning the digit mappings, and encodings for all 1 and 2 digit words
  • Major System Tool Free web application for converting numbers to words using Derren Brown's encoding.
  • Mnemonic Major System Module A free module for the drupal content management system by rolf vreijdenberger - web based
  • dingn.com Training and recall of 1 digit to 4 digits numbers, vocabulary cards and a deck of shuffled playing cards with personalized favorite word selection for each number.
  • LOC Serendipity A quiz to learn the sound/number correspondences of the Major system by rote. Also available are quizzes to learn the top 100 adjective and noun representations from 00 to 99.

Other

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