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Baudot code

An early "piano" Baudot keyboard

The Baudot code (French pronunciation: [bodo]) is an early character encoding for telegraphy invented by Émile Baudot in the 1870s.[1] It was the predecessor to the International Telegraph Alphabet No. 2 (ITA2), the most common teleprinter code in use before ASCII. Each character in the alphabet is represented by a series of five bits, sent over a communication channel such as a telegraph wire or a radio signal by asynchronous serial communication. The symbol rate measurement is known as baud, and is derived from the same name.

History

Baudot code (ITA1)

Baudot code (ITA1)
An early version from Baudot's 1888 US patent, listing A through Z, t and ∗ (Erasure)
Alias(es)International Telegraph Alphabet 1
Current statusReplaced by ITA2 (not mutually compatible).
Classification5-bit stateful[citation needed] basic Latin encoding
Preceded byMorse code
Succeeded byITA2

In the below table, Columns I, II, III, IV, and V show the code; the Let. and Fig. columns show the letters and numbers for the Continental and UK versions; and the sort keys present the table in the order: alphabetical, Gray and UK

Baudot code (Continental and UK versions)
Europe sort keys UK sort keys
V IV I II III Con­ti­nen­tal Gray Let. Fig. V IV I II III UK
- - -
A 1 A 1
É & / 1/
E 2 E 2
I o I 3/
O 5 O 5
U 4 U 4
Y 3 Y 3
B 8 B 8
C 9 C 9
D 0 D 0
F f F 5/
G 7 G 7
H h H ¹
J 6 J 6
Figure Blank Fig. Bl.
Erasure Erasure * *
K ( K (
L = L =
M ) M )
N N £
P % P +
Q / Q /
R R
S ; S 7/
T ! T ²
V ' V ¹
W ? W ?
X , X 9/
Z : Z :
t . .
Blank Letter Bl. Let.

Baudot developed his first multiplexed telegraph in 1872[2][3] and patented it in 1874.[3][4] In 1876, he changed from a six-bit code to a five-bit code,[3] as suggested by Carl Friedrich Gauss and Wilhelm Weber in 1834,[2][5] with equal on and off intervals, which allowed for transmission of the Roman alphabet, and included punctuation and control signals. The code itself was not patented (only the machine) because French patent law does not allow concepts to be patented.[6]

Baudot's 5-bit code was adapted to be sent from a manual keyboard, and no teleprinter equipment was ever constructed that used it in its original form.[7] The code was entered on a keyboard which had just five piano-type keys and was operated using two fingers of the left hand and three fingers of the right hand. Once the keys had been pressed, they were locked down until mechanical contacts in a distributor unit passed over the sector connected to that particular keyboard, at which time the keyboard was unlocked ready for the next character to be entered, with an audible click (known as the "cadence signal") to warn the operator. Operators had to maintain a steady rhythm, and the usual speed of operation was 30 words per minute.[8]

The table "shows the allocation of the Baudot code which was employed in the British Post Office for continental and inland services. A number of characters in the continental code are replaced by fractionals in the inland code. Code elements 1, 2 and 3 are transmitted by keys 1, 2 and 3, and these are operated by the first three fingers of the right hand. Code elements 4 and 5 are transmitted by keys 4 and 5, and these are operated by the first two fingers of the left hand."[7][9][10]

Baudot's code became known as the International Telegraph Alphabet No. 1 (ITA1). It is no longer used.

Murray code

Paper tape with holes representing the "Baudot–Murray Code". Note the fully punched columns of "Delete/Letters select" codes at end of the message (on the right) which were used to cut the band easily between distinct messages. The last symbols before the fully punched columns at the end are BRASIL CR LF CR FS (word Brasil, carriage return, line feed, carriage return, shift to figures)

In 1901, Baudot's code was modified by Donald Murray (1865–1945), prompted by his development of a typewriter-like keyboard. The Murray system employed an intermediate step: an operator used a keyboard perforator to punch a paper tape and then a transmitter to send the message from the punched tape. At the receiving end of the line, a printing mechanism would print on a paper tape, and/or a reperforator would make a perforated copy of the message.[11]

Because there was no longer a connection between the operator's hand movement and the bits transmitted, there was no concern about arranging the code to minimize operator fatigue. Instead, Murray designed the code to minimize wear on the machinery by assigning the code combinations with the fewest punched holes to the most frequently used characters.[12][13] For example, the one-hole letters are E and T. The ten two-hole letters are AOINSHRDLZ, very similar to the "Etaoin shrdlu" order used in Linotype machines. Ten more letters, BCGFJMPUWY, have three holes each, and the four-hole letters are VXKQ.

The Murray code also introduced what became known as "format affectors" or "control characters" – the CR (Carriage Return) and LF (Line Feed) codes. A few of Baudot's codes moved to the positions where they have stayed ever since: the NULL or BLANK and the DEL code. NULL/BLANK was used as an idle code for when no messages were being sent, but the same code was used to encode the space separation between words. Sequences of DEL codes (fully punched columns) were used at start or end of messages or between them which made it easier to separate distinct messages. (BELL codes could be inserted in those sequences to signal to the remote operator that a new message was coming or that transmission of a message was terminated).

Early British Creed machines also used the Murray system.

Western Union

Keyboard of a teleprinter using the Baudot code (US variant), with FIGS and LTRS shift keys

Murray's code was adopted by Western Union which used it until the 1950s, with a few changes that consisted of omitting some characters and adding more control codes. An explicit SPC (space) character was introduced, in place of the BLANK/NULL, and a new BEL code rang a bell or otherwise produced an audible signal at the receiver. Additionally, the WRU or "Who aRe yoU?" code was introduced, which caused a receiving machine to send an identification stream back to the sender.

ITA2

ITA2 Baudot–Murray code
British variant of ITA2
Alias(es)International Telegraph Alphabet 2
Classification5-bit stateful[citation needed] basic Latin encoding
Preceded byITA1
Succeeded byFIELDATA,
ITA 3 (van Duuren code),
ITA 5 (ISO 646, ASCII)
MTK-2
Language(s)Russian
Classification5-bit stateful[citation needed] Russian Cyrillic encoding
Preceded byRussian Morse code
Succeeded byKOI-7

In 1932, the CCITT introduced the International Telegraph Alphabet No. 2 (ITA2) code[14] as an international standard, which was based on the Western Union code with some minor changes. The US standardized on a version of ITA2 called the American Teletypewriter code (US TTY) which was the basis for 5-bit teletypewriter codes until the debut of 7-bit ASCII in 1963.[15]

Some code points (marked blue in the table) were reserved for national-specific usage.[16]

A four-row teletype keyboard with Roman and Cyrillic letters.
International telegraphy alphabet No. 2 (Baudot–Murray code)[17]
Impulse patterns
(1=mark, 0=space)
Letter shift Figure shift
LSB on
right;
code elements:
543·21
LSB on
left;
code elements:
12·345
Count of punched marks ITA2
standard
Russian
MTK-2
variant
Russian
MTK-2
variant
ITA2
standard
US TTY
variant
000·00 00·000 0 Null Shift to Cyrillic Letters Null
010·00 00·010 1 Carriage return
000·10 01·000 1 Line feed
001·00 00·100 1 Space
101·11 11·101 4 Q Я 1
100·11 11·001 3 W В 2
000·01 10·000 1 E Е 3
010·10 01·010 2 R Р 4
100·00 00·001 1 T Т 5
101·01 10·101 3 Y Ы 6
001·11 11·100 3 U У 7
001·10 01·100 2 I И 8
110·00 00·011 2 O О 9
101·10 01·101 3 P П 0
000·11 11·000 2 A А
001·01 10·100 2 S С ' Bell
010·01 10·010 2 D Д WRU? $
011·01 10·110 3 F Ф Э !
110·10 01·011 3 G Г Ш &
101·00 00·101 2 H Х Щ £ #
010·11 11·010 3 J Й Ю Bell '
011·11 11·110 4 K К (
100·10 01·001 2 L Л )
100·01 10·001 2 Z З + "
111·01 10·111 4 X Ь /
011·10 01·110 3 C Ц :
111·10 01·111 4 V Ж = ;
110·01 10·011 3 B Б ?
011·00 00·110 2 N Н ,
111·00 00·111 3 M М .
110·11 11·011 4 Shift to Figures (FS) Reserved for
figures extension
111·11 11·111 5 Reserved for
lettercase extension
Shift to Letters (LS)
/ Erasure / Delete

The code position assigned to Null was in fact used only for the idle state of teleprinters. During long periods of idle time, the impulse rate was not synchronized between both devices (which could even be powered off or not permanently interconnected on commuted phone lines). To start a message it was first necessary to calibrate the impulse rate, a sequence of regularly timed "mark" pulses (1), by a group of five pulses, which could also be detected by simple passive electronic devices to turn on the teleprinter. This sequence of pulses generated a series of Erasure/Delete characters while also initializing the state of the receiver to the Letters shift mode. However, the first pulse could be lost, so this power on procedure could then be terminated by a single Null immediately followed by an Erasure/Delete character. To preserve the synchronization between devices, the Null code could not be used arbitrarily in the middle of messages (this was an improvement to the initial Baudot system where spaces were not explicitly differentiated, so it was difficult to maintain the pulse counters for repeating spaces on teleprinters). But it was then possible to resynchronize devices at any time by sending a Null in the middle of a message (immediately followed by an Erasure/Delete/LS control if followed by a letter, or by a FS control if followed by a figure). Sending Null controls also did not cause the paper band to advance to the next row (as nothing was punched), so this saved precious lengths of punchable paper band. On the other hand, the Erasure/Delete/LS control code was always punched and always shifted to the (initial) letters mode. According to some sources, the Null code point was reserved for country-internal usage only.[16]

The Shift to Letters code (LS) is also usable as a way to cancel/delete text from a punched tape after it has been read, allowing the safe destruction of a message before discarding the punched band.[clarification needed] Functionally, it can also play the same filler role as the Delete code in ASCII (or other 7-bit and 8-bit encodings, including EBCDIC for punched cards). After codes in a fragment of text have been replaced by an arbitrary number of LS codes, what follows is still preserved and decodable. It can also be used as an initiator to make sure that the decoding of the first code will not give a digit or another symbol from the figures page (because the Null code can be arbitrarily inserted near the end or beginning of a punch band, and has to be ignored, whereas the Space code is significant in text).

The cells marked as reserved for extensions (which use the LS code again a second time—just after the first LS code—to shift from the figures page to the letters shift page) has been defined to shift into a new mode. In this new mode, the letters page contains only lowercase letters, but retains access to a third code page for uppercase letters, either by encoding for a single letter (by sending LS before that letter), or locking (with FS+LS) for an unlimited number of capital letters or digits before then unlocking (with a single LS) to return to lowercase mode.[18] The cell marked as "Reserved" is also usable (using the FS code from the figures shift page) to switch the page of figures (which normally contains digits and national lowercase letters or symbols) to a fourth page (where national letters are uppercase and other symbols may be encoded).

ITA2 is still used in telecommunications devices for the deaf (TDD), Telex, and some amateur radio applications, such as radioteletype ("RTTY"). ITA2 is also used in Enhanced Broadcast Solution, an early 21st-century financial protocol specified by Deutsche Börse, to reduce the character encoding footprint.[19]

Nomenclature

Nearly all 20th-century teleprinter equipment used Western Union's code, ITA2, or variants thereof. Radio amateurs casually call ITA2 and variants "Baudot" incorrectly,[20] and even the American Radio Relay League's Amateur Radio Handbook does so, though in more recent editions the tables of codes correctly identifies it as ITA2.

Character set

The values shown in each cell are the Unicode codepoints, given for comparison.

Original Baudot variants

Original Baudot, domestic UK

Original Baudot code, UK domestic variant (letter set, switched to with 0x10)[21]
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x NUL A E / Y U I O FIGS J G H B C F D
1x  SP  - X Z S T W V DEL K M L R Q N P
Original Baudot code, UK domestic variant (figure set, switched to with 0x08)[21]
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x NUL 1 2 3 4 ³⁄ 5  SP  6 7 ¹ 8 9 ⁵⁄ 0
1x LTRS . ⁹⁄ : ⁷⁄ ² ? ' DEL ( ) = - / £ +

Original Baudot, Continental European

Original Baudot code, continental European variant (letter set, switched to with 0x10)[21]
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x NUL A E É Y U I O FIGS J G H B C F D
1x  SP  X Z S T W V DEL K M L R Q N P
Original Baudot code, continental variant (figure set, switched to with 0x08)[21]
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x NUL 1 2 & 3 4 º 5  SP  6 7 ʰ̵ 8 9 ᶠ̵ 0
1x LTRS . , : ; ! ? ' DEL ( ) = - / %

Original Baudot, ITA 1

ITA 1 (letter set, switched to with 0x10)[21]
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x NUL A E  CR  Y U I O FIGS J G H B C F D
1x  SP   LF  X Z S T W V DEL K M L R Q N P
ITA 1 (figure set, switched to with 0x08)[21]
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x NUL 1 2  CR  3 4 PU[a] 5  SP  6 7 + 8 9 PU[a] 0
1x LTRS  LF  , : . PU[a] ? ' DEL ( ) = - / PU[a] %

Baudot–Murray variants

Murray Code

Murray code (letter set, switched to with 0x04)[21]
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x  SP  E COL A LTRS S I U  LF  D R J N F C K
1x T Z L W H Y P Q O B G FIGS M X V DEL/*[b]
Murray code (figure set, switched to with 0x1B)
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x  SP  3 COL LTRS ' 8 7  LF  ² 4 ⁷⁄ ( ⁹⁄
1x 5 . / 2 ⁵⁄ 6 0 1 9 ? ³⁄ FIGS , £ ) DEL/*[b]

ITA 2 and US-TTY

ITA2 and US-TTY Baudot–Murray code (letter set, switched to with 0x1F)
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x NUL E  LF  A  SP  S I U  CR  D R J N F C K
1x T Z L W H Y P Q O B G FIGS M X V LTRS/DEL
US-TTY Baudot–Murray code (figure set, switched to with 0x1B)
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x NUL 3  LF   SP  BEL 8 7  CR  $ 4 ' , ! : (
1x 5 " ) 2 # 6 0 1 9 ? & FIGS . / ; LTRS
ITA2 Baudot–Murray code (figure set, switched to with 0x1B)
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x NUL 3  LF   SP  ' 8 7  CR  ENQ 4 BEL , ! : (
1x 5 + ) 2 £ 6 0 1 9 ? & FIGS . / = LTRS

Weather code

Meteorologists used a variant of ITA2 with the figures-case symbols, except for the ten digits, BEL and a few other characters, replaced by weather symbols:

Weather teleprinter encoding
Meteorological Baudot–Murray code (figure set, switched to with 0x1B)
0 1 2 3 4 5 6 7 8 9 A B C D E F
0x - 3  LF   SP  BEL 8 7  CR  4
1x 5 + 2 6 0 1 9 FIGS . / LTRS

Details

Note: This table presumes the space called "1" by Baudot and Murray is rightmost, and least significant. The way the transmitted bits were packed into larger codes varied by manufacturer. The most common solution allocates the bits from the least significant bit towards the most significant bit (leaving the three most significant bits of a byte unused).

Table of ITA2 codes (expressed as hexadecimal numbers)

In ITA2, characters are expressed using five bits. ITA2 uses two code sub-sets, the "letter shift" (LTRS), and the "figure shift" (FIGS). The FIGS character (11011) signals that the following characters are to be interpreted as being in the FIGS set, until this is reset by the LTRS (11111) character.[22] In use, the LTRS or FIGS shift key is pressed and released, transmitting the corresponding shift character to the other machine. The desired letters or figures characters are then typed. Unlike a typewriter or modern computer keyboard, the shift key isn't kept depressed whilst the corresponding characters are typed. "ENQuiry" will trigger the other machine's answerback. It means "Who are you?"

CR is carriage return, LF is line feed, BEL is the bell character which rang a small bell (often used to alert operators to an incoming message), SP is space, and NUL is the null character (blank tape).

Note: the binary conversions of the codepoints are often shown in reverse order, depending on (presumably) from which side one views the paper tape. Note further that the "control" characters were chosen so that they were either symmetric or in useful pairs so that inserting a tape "upside down" did not result in problems for the equipment and the resulting printout could be deciphered. Thus FIGS (11011), LTRS (11111) and space (00100) are invariant, while CR (00010) and LF (01000), generally used as a pair, are treated the same regardless of order by page printers.[23] LTRS could also be used to overpunch characters to be deleted on a paper tape (much like DEL in 7-bit ASCII).

The sequence RYRYRY... is often used in test messages, and at the start of every transmission. Since R is 01010 and Y is 10101, the sequence exercises much of a teleprinter's mechanical components at maximum stress. Also, at one time, fine-tuning of the receiver was done using two coloured lights (one for each tone). 'RYRYRY...' produced 0101010101..., which made the lights glow with equal brightness when the tuning was correct. This tuning sequence is only useful when ITA2 is used with two-tone FSK modulation, such as is commonly seen in radioteletype (RTTY) usage.

US implementations of Baudot code may differ in the addition of a few characters, such as #, & on the FIGS layer.

The Russian version of Baudot code (MTK-2) used three shift modes; the Cyrillic letter mode was activated by the character (00000). Because of the larger number of characters in the Cyrillic alphabet, the characters !, &, £ were omitted and replaced by Cyrillics, and BEL has the same code as Cyrillic letter Ю. The Cyrillic letters Ъ and Ё are omitted, and Ч is merged with the numeral 4.

See also

Explanatory notes

  1. ^ a b c d "At the disposal of each administration for its internal service"[21]
  2. ^ a b "[G]ives invisible correction on page printers & * on slip printers."[21]

References

  1. ^ Ralston, Anthony; Reilly, Edwin D., eds. (1993), "Baudot Code", Encyclopedia of Computer Science (Third ed.), New York: IEEE Press/Van Nostrand Reinhold, ISBN 0-442-27679-6
  2. ^ a b H. A. Emmons (1 May 1916). "Printer Systems". Wire & Radio Communications. 34: 209.
  3. ^ a b c Fischer, Eric N. (20 June 2000). "The Evolution of Character Codes, 1874–1968". ark:/13960/t07x23w8s. Retrieved 20 December 2020. [...] In 1872, [Baudot] started research toward a telegraph system that would allow multiple operators to transmit simultaneously over a single wire and, as the transmissions were received, would print them in ordinary alphabetic characters on a strip of paper. He received a patent for such a system on June 17, 1874. [...] Instead of a variable delay followed by a single-unit pulse, Baudot's system used a uniform six time units to transmit each character. [...] his early telegraph probably used the six-unit code [...] that he attributes to Davy in an 1877 article. [...] in 1876 Baudot redesigned his equipment to use a five-unit code. Punctuation and digits were still sometimes needed, though, so he adopted from Hughes the use of two special letter space and figure space characters that would cause the printer to shift between cases at the same time as it advanced the paper without printing. The five-unit code he began using at this time [...] was structured to suit his keyboard [...], which controlled two units of each character with switches operated by the left hand and the other three units with the right hand. [...] [1][2]
  4. ^ Baudot, Jean-Maurice-Émile (June 1874). "Système de télégraphie rapide" (in French). Archives Institut National de la Propriété Industrielle (INPI). Patent Brevet 103,898. Archived from the original on 16 December 2017.
  5. ^ William V. Vansize (25 January 1901). "A New Page-Printing Telegraph". Transactions. 18. American Institute of Electrical Engineers: 22.
  6. ^ Procès d'Amiens Baudot vs Mimault
  7. ^ a b Jennings, Tom (2020). "An annotated history of some character codes: Baudot's code".
  8. ^ Beauchamp, K.G. (2001). History of Telegraphy: Its Technology and Application. Institution of Engineering and Technology. pp. 394–395. ISBN 0-85296-792-6.
  9. ^ Alan G. Hobbs, 5 Unit Codes, section Baudot Multiplex System
  10. ^ Gleick, James (2011). The Information: A History, a Theory, a Flood. London: Fourth Estate. p. 203. ISBN 978-0-00-742311-8.
  11. ^ Foster, Maximilian (August 1901). "A Successful Printing Telegraph". The World's Work: A History of Our Time. II: 1195–1199. Retrieved 9 July 2009.
  12. ^ Copeland 2006, p. 38
  13. ^ Telegraph and Telephone Age. 1921. I allocated the most frequently used letters in English language to the signals represented by the fewest holes in the perforated tape, and so on in proportion.
  14. ^ "Telegraph Regulations and Final Protocol (Madrid, 1932)" (PDF). Archived from the original on 21 August 2023. Retrieved 10 May 2024.
  15. ^ Smith, Gil (2001). "Teletype Communication Codes" (PDF). Baudot.net. Archived (PDF) from the original on 20 August 2008. Retrieved 11 July 2008.
  16. ^ a b Steinbuch, Karl W.; Weber, Wolfgang, eds. (1974) [1967]. Taschenbuch der Informatik - Band III - Anwendungen und spezielle Systeme der Nachrichtenverarbeitung (in German). Vol. 3 (3 ed.). Berlin, Germany: Springer Verlag. pp. 328–329. ISBN 3-540-06242-4. LCCN 73-80607. {{cite book}}: |work= ignored (help)
  17. ^ dataIP Limited. "The "Baudot" Code". Archived from the original on 23 December 2017. Retrieved 16 July 2017.
  18. ^ ITU-T Recommendation S.2 / 11/1988, published in Fascicle VII.1 of the Blue Book
  19. ^ "Enhanced Broadcast Solution – Interface Specification Final Version" (PDF). Deutsche Börse. 17 May 2010. Archived from the original (PDF) on 8 February 2012. Retrieved 10 August 2011.
  20. ^ Gillam, Richard (2002). Unicode Demystified. Addison-Wesley. p. 30. ISBN 0-201-70052-2.
  21. ^ a b c d e f g h i "Five-unit codes". NADCOMM museum. Archived from the original on 4 November 1999. Retrieved 5 December 2001.
  22. ^ This article is based on material taken from Baudot+code at the Free On-line Dictionary of Computing prior to 1 November 2008 and incorporated under the "relicensing" terms of the GFDL, version 1.3 or later.
  23. ^ Jennings, Tom (5 February 2020). "An annotated history of some character codes: ITA2". Retrieved 1 June 2022. [...] the characters that are 'transmission control' related [...] are bit-wise symmetrical – the codes for FIGS, LTRS, space and BLANK – are the same reversed left to right! Further, the codes for CR and LF, equal each other when reversed left to right!
  24. ^ Bacon, Francis (1605). The Proficience and Advancement of Learning Divine and Humane.

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Административное деление Швейцарии Топонимия Швейцарии — совокупность географических названий, включающая наименования природных и культурных объектов на территории Швейцарии. Структура и состав топонимии страны обусловлены её географическим положением, этническ…

Business legally synonymous with its ownerThis article is part of a series onCorporate law By jurisdiction Anguilla Australia BVI Canada Cayman Islands India South Africa UK United States Vietnam European Union France Germany General corporate forms Company Conglomerate Cooperative Corporation Holding company Joint-stock Partnership General Limited Limited liability Private limited Shell corporation Shelf corporation Sole proprietorship Corporate formsby jurisdiction European Union Societas …

Performing arts center in Atlanta, Georgia This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these template messages) This article contains content that is written like an advertisement. Please help improve it by removing promotional content and inappropriate external links, and by adding encyclopedic content written from a neutral point of view. (September 2011) (Learn how and when to remove this template message) Th…

Pour les articles homonymes, voir Base aérienne 136. Cet article est une ébauche concernant l’aéronautique. Vous pouvez partager vos connaissances en l’améliorant (comment ?) selon les recommandations des projets correspondants. Base aérienne 136 Friedrichshafen Insigne régimentaire de la base aerienne 903 Friedrichshafen de 1945 à 1954 Localisation Pays Allemagne Date d'ouverture 1945 Date de fermeture 1954 Coordonnées 47° 40′ 16″ nord, 9° 30′ 3…

American publishing house This article is about the publishing house. For the person, see Alfred A. Knopf Sr. For other people named Knopf, see Knopf (surname). Alfred A. KnopfParent companyPenguin Random HouseFounded1915; 109 years ago (1915)FounderBlanche Wolf Knopf and Alfred A. Knopf Sr.Country of originUnited StatesHeadquarters locationNew York City, U.S.Official websiteknopfdoubleday.com/imprint/knopf/ Alfred A. Knopf, Inc. (/knɒpf/) is an American publishing house that …

Pour un article plus général, voir Tour d'Italie 2021. 3e étape du Tour d'Italie 2021 GénéralitésCourse3e étape، Tour d'Italie 2021Type Étape vallonnéeDate10 mai 2021Distance190 kmPays ItalieLieu de départBiellaLieu d'arrivéeCanalePartants183Arrivants183Vitesse moyenne43,597 km/hDénivelé2 100 mRésultats de l’étape1er Taco van der Hoorn4 h 21 min 29 s(Intermarché-Wanty-Gobert Matériaux)2e Davide Cimolai+ 4 s3e Peter Sagan+ 4 sClassement général à l’issue de l’étap…

JogonalanKecamatanPeta lokasi Kecamatan JogonalanNegara IndonesiaProvinsiJawa TengahKabupatenKlatenPemerintahan • CamatMurdoko,SH.Populasi • Total58,526 jiwaKode Kemendagri33.10.08 Kode BPS3310090 Luas26,70 km²Desa/kelurahan18 Jogonalan (Jawa: ꦗꦒꦤꦭꦤ꧀, translit. Jaganalan) adalah sebuah kecamatan di Kabupaten Klaten, Jawa Tengah Batas Wilayah Utara Kecamatan Karangnongko Timur laut Kecamatan Kebonarum Timur Kecamatan Klaten Selatan Tenggara Kecam…

Major political party in the United Kingdom from 1859 to 1988 This article is about the former British Liberal Party. For the party formed by the 1988 merger with the SDP, see Liberal Democrats (UK). For the Liberal Party formed by those opposed to the 1988 merger, see Liberal Party (UK, 1989). Liberal Party FounderJohn Russell, 1st Earl RussellFounded9 June 1859; 164 years ago (1859-06-09)Dissolved2 March 1988; 36 years ago (1988-03-02)Merger ofWhigsRadi…

ضريح رود بندمعلومات عامةنوع المبنى ضريحالمكان دزفول[1] المنطقة الإدارية محافظة خوزستان[1] البلد  إيرانالصفة التُّراثيَّةتصنيف تراثي المعالم الوطنية الإيرانية[1] (1999 – ) التصميم والإنشاءالنمط المعماري عمارة تيمورية معلومات أخرىالإحداثيات 32°23′48″N 48°23′53″Eþ…

Adidas brand AdicolorProduct typeClothing, footwearOwnerAdidasCountryWorldwideIntroduced1983; 41 years ago (1983)Websiteadidas.com/adicolor Adicolor is a brand of German sports manufacturer Adidas, which consists of several collections of the Adidas Originals clothing line, using mostly primary colors.[1][2] History Adicolor Stan Smith models exhibited at an Adidas shop in Milan, Italy The first Adicolor apparel line was launched in 1983. The brand also launched…

This article needs to be updated. Please help update this article to reflect recent events or newly available information. (June 2023) Politics of Burundi Constitution Constitutional Court Human rights Constitution of the Kingdom (1962–1966) Government President (list) Évariste Ndayishimiye Vice-President Prosper Bazombanza Prime Minister Alain-Guillaume Bunyoni Council of Ministers Parliament Senate President National Assembly President Judiciary Supreme Court Administrative divisions Provin…

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