A distinctive unique value that is unlikely to be mistaken for other meanings (e.g., Globally Unique Identifiers)
Unnamed numerical constants
The term magic number or magic constant refers to the anti-pattern of using numbers directly in source code. This has been referred to as breaking one of the oldest rules of programming, dating back to the COBOL, FORTRAN and PL/1 manuals of the 1960s.[1] The use of unnamed magic numbers in code obscures the developers' intent in choosing that number,[2] increases opportunities for subtle errors (e.g. is every digit correct in 3.14159265358979323846 and can be rounded to 3.14159?[clarification needed][3]) and makes it more difficult for the program to be adapted and extended in the future.[4] Replacing all significant magic numbers with named constants (also called explanatory variables) makes programs easier to read, understand and maintain.[5]
Names chosen to be meaningful in the context of the program can result in code that is more easily understood by a maintainer who is not the original author (or even by the original author after a period of time).[6] An example of an uninformatively named constant is int SIXTEEN = 16, while int NUMBER_OF_BITS = 16 is more descriptive.
The problems associated with magic 'numbers' described above are not limited to numerical types and the term is also applied to other data types where declaring a named constant would be more flexible and communicative.[1] Thus, declaring const string testUserName = "John" is better than several occurrences of the 'magic value' "John" in a test suite.
For example, if it is required to randomly shuffle the values in an array representing a standard pack of playing cards, this pseudocode does the job using the Fisher–Yates shuffle algorithm:
for i from 1 to 52
j := i + randomInt(53 - i) - 1
a.swapEntries(i, j)
where a is an array object, the function randomInt(x) chooses a random integer between 1 and x, inclusive, and swapEntries(i, j) swaps the ith and jth entries in the array. In the preceding example, 52 and 53 are magic numbers, also not clearly related to each other. It is considered better programming style to write the following:
int deckSize:= 52
for i from 1 to deckSize
j := i + randomInt(deckSize + 1 - i) - 1
a.swapEntries(i, j)
This is preferable for several reasons:
It is easier to read and understand. A programmer reading the first example might wonder, What does the number 52 mean here? Why 52? The programmer might infer the meaning after reading the code carefully, but it is not obvious.[6] Magic numbers become particularly confusing when the same number is used for different purposes in one section of code.
It is easier to alter the value of the number, as it is not duplicated. Changing the value of a magic number is error-prone, because the same value is often used several times in different places within a program.[6] Also, when two semantically distinct variables or numbers have the same value they may be accidentally both edited together.[6] To modify the first example to shuffle a Tarot deck, which has 78 cards, a programmer might naively replace every instance of 52 in the program with 78. This would cause two problems. First, it would miss the value 53 on the second line of the example, which would cause the algorithm to fail in a subtle way. Second, it would likely replace the characters "52" everywhere, regardless of whether they refer to the deck size or to something else entirely, such as the number of weeks in a Gregorian calendar year, or more insidiously, are part of a number like "1523", all of which would introduce bugs. By contrast, changing the value of the deckSize variable in the second example would be a simple, one-line change.
It encourages and facilitates documentation.[6] The single place where the named variable is declared makes a good place to document what the value means and why it has the value it does. Having the same value in a plethora of places either leads to duplicate comments (and attendant problems when updating some but missing some) or leaves no one place where it's both natural for the author to explain the value and likely the reader shall look for an explanation.
The declarations of "magic number" variables are placed together, usually at the top of a function or file, facilitating their review and change.[6]
It helps detect typos. Using a variable (instead of a literal) takes advantage of a compiler's checking. Accidentally typing "62" instead of "52" would go undetected, whereas typing "dekSize" instead of "deckSize" would result in the compiler's warning that dekSize is undeclared.
It can reduce typing in some IDEs. If an IDE supports code completion, it will fill in most of the variable's name from the first few letters.
It facilitates parameterization. For example, to generalize the above example into a procedure that shuffles a deck of any number of cards, it would be sufficient to turn deckSize into a parameter of that procedure, whereas the first example would require several changes.
function shuffle (int deckSize)
for i from 1 to deckSize
j := i + randomInt(deckSize + 1 - i) - 1
a.swapEntries(i, j)
Disadvantages are:
When the named constant is not defined near its use, it hurts the locality, and thus comprehensibility, of the code. Putting the 52 in a possibly distant place means that, to understand the workings of the "for" loop completely (for example to estimate the run-time of the loop), one must track down the definition and verify that it is the expected number. This is easy to avoid (by relocating the declaration) when the constant is only used in one portion of the code. When the named constant is used in disparate portions, on the other hand, the remote location is a clue to the reader that the same value appears in other places in the code, which may also be worth looking into.
It may make the code more verbose. The declaration of the constant adds a line. When the constant's name is longer than the value's, particularly if several such constants appear in one line, it may make it necessary to split one logical statement of the code across several lines. An increase in verbosity may be justified when there is some likelihood of confusion about the constant, or when there is a likelihood the constant may need to be changed, such as reuse of a shuffling routine for other card games. It may equally be justified as an increase in expressiveness.
It may be slower to process the expression deckSize + 1 at run-time than the value "53", although most modern compilers and interpreters will notice that deckSize has been declared as a constant and pre-calculate the value 53 in the compiled code. Even when that's not an option, loop optimization will move the addition so that it is performed before the loop. There is therefore usually no (or negligible) speed penalty compared to using magic numbers in code. Especially the cost of debugging and the time needed trying to understand non-explanatory code must be held against the tiny calculation cost.
In some contexts, the use of unnamed numerical constants is generally accepted (and arguably "not magic"). While such acceptance is subjective, and often depends on individual coding habits, the following are common examples:
the use of 0 and 1 as initial or incremental values in a for loop, such as for(inti=0;i<max;i+=1)
the use of 2 to check whether a number is even or odd, as in isEven = (x % 2 == 0), where % is the modulo operator
the use of simple arithmetic constants, e.g., in expressions such as circumference = 2 * Math.PI * radius,[1] or for calculating the discriminant of a quadratic equation as d = b^2 − 4*a*c
the use of powers of 10 to convert metric values (e.g. between grams and kilograms) or to calculate percentage and per mille values
exponents in expressions such as (f(x) ** 2 + f(y) ** 2) ** 0.5 for
The constants 1 and 0 are sometimes used to represent the Boolean values true and false in programming languages without a Boolean type, such as older versions of C. Most modern programming languages provide a boolean or boolprimitive type and so the use of 0 and 1 is ill-advised. This can be more confusing since 0 sometimes means programmatic success (when -1 means failure) and failure in other cases (when 1 means success).
In C and C++, 0 represents the null pointer. As with Boolean values, the C standard library includes a macro definition NULL whose use is encouraged. Other languages provide a specific null or nil value and when this is the case no alternative should be used. The typed pointer constant nullptr has been introduced with C++11.
Unix was ported to one of the first DECPDP-11/20s, which did not have memory protection. So early versions of Unix used the relocatable memory reference model.[7] Pre-Sixth Edition Unix versions read an executable file into memory and jumped to the first low memory address of the program, relative address zero. With the development of paged versions of Unix, a header was created to describe the executable image components. Also, a branch instruction was inserted as the first word of the header to skip the header and start the program. In this way a program could be run in the older relocatable memory reference (regular) mode or in paged mode. As more executable formats were developed, new constants were added by incrementing the branch offset.[8]
In the Sixth Editionsource code of the Unix program loader, the exec() function read the executable (binary) image from the file system. The first 8 bytes of the file was a header containing the sizes of the program (text) and initialized (global) data areas. Also, the first 16-bit word of the header was compared to two constants to determine if the executable image contained relocatable memory references (normal), the newly implemented paged read-only executable image, or the separated instruction and data paged image.[9] There was no mention of the dual role of the header constant, but the high order byte of the constant was, in fact, the operation code for the PDP-11 branch instruction (octal 000407 or hex 0107). Adding seven to the program counter showed that if this constant was executed, it would branch the Unix exec() service over the executable image eight byte header and start the program.
Since the Sixth and Seventh Editions of Unix employed paging code, the dual role of the header constant was hidden. That is, the exec() service read the executable file header (meta) data into a kernel space buffer, but read the executable image into user space, thereby not using the constant's branching feature. Magic number creation was implemented in the Unix linker and loader and magic number branching was probably still used in the suite of stand-alonediagnostic programs that came with the Sixth and Seventh Editions. Thus, the header constant did provide an illusion and met the criteria for magic.
In Version Seven Unix, the header constant was not tested directly, but assigned to a variable labeled ux_mag[10] and subsequently referred to as the magic number. Probably because of its uniqueness, the term magic number came to mean executable format type, then expanded to mean file system type, and expanded again to mean any type of file.
Magic numbers are common in programs across many operating systems. Magic numbers implement strongly typed data and are a form of in-band signaling to the controlling program that reads the data type(s) at program run-time. Many files have such constants that identify the contained data. Detecting such constants in files is a simple and effective way of distinguishing between many file formats and can yield further run-time information.
PNG image files begin with an 8-byte signature which identifies the file as a PNG file and allows detection of common file transfer problems: "\211PNG\r\n\032\n" (89504E470D0A1A0A). That signature contains various newline characters to permit detecting unwarranted automated newline conversions, such as transferring the file using FTP with the ASCIItransfer mode instead of the binary mode.[11]
Standard MIDI audio files have the ASCII code for "MThd" (MIDI Track header, 4D546864) followed by more metadata.
Unix or Linux scripts may start with a shebang ("#!", 2321) followed by the path to an interpreter, if the interpreter is likely to be different from the one from which the script was invoked.
ELF executables start with the byte 7F followed by "ELF" (7F454C46).
PostScript files and programs start with "%!" (2521).
DOS MZ executable files and the EXE stub of the Microsoft WindowsPE (Portable Executable) files start with the characters "MZ" (4D5A), the initials of the designer of the file format, Mark Zbikowski. The definition allows the uncommon "ZM" (5A4D) as well for dosZMXP, a non-PE EXE.[12]
Executables for the Game Boy and Game Boy Advance handheld video game systems have a 48-byte or 156-byte magic number, respectively, at a fixed spot in the header. This magic number encodes a bitmap of the Nintendo logo.
Amiga software executable Hunk files running on Amiga classic 68000 machines all started with the hexadecimal number $000003f3, nicknamed the "Magic Cookie."
In the Amiga, the only absolute address in the system is hex $0000 0004 (memory location 4), which contains the start location called SysBase, a pointer to exec.library, the so-called kernel of Amiga.
TIFF files begin with either "II" or "MM" followed by 42 as a two-byte integer in little or big endian byte ordering. "II" is for Intel, which uses little endian byte ordering, so the magic number is 49492A00. "MM" is for Motorola, which uses big endian byte ordering, so the magic number is 4D4D002A.
Unicode text files encoded in UTF-16 often start with the Byte Order Mark to detect endianness (FEFF for big endian and FFFE for little endian). And on Microsoft Windows, UTF-8 text files often start with the UTF-8 encoding of the same character, EFBBBF.
WAD files start with "IWAD" or "PWAD" (for Doom), "WAD2" (for Quake) and "WAD3" (for Half-Life).
Microsoft Compound File Binary Format (mostly known as one of the older formats of Microsoft Office documents) files start with D0CF11E0, which is visually suggestive of the word "DOCFILE0".
Headers in ZIP files often show up in text editors as "PK♥♦" (504B0304), where "PK" are the initials of Phil Katz, author of DOS compression utility PKZIP.
Headers in 7z files begin with "7z" (full magic number: 377ABCAF271C).
Detection
The Unix utility program file can read and interpret magic numbers from files, and the file which is used to parse the information is called magic. The Windows utility TrID has a similar purpose.
In the RFB protocol used by VNC, a client starts its conversation with a server by sending "RFB" (524642, for "Remote Frame Buffer") followed by the client's protocol version number.
In the SMB protocol used by Microsoft Windows, each SMB request or server reply begins with 'FF534D42', or "\xFFSMB" at the start of the SMB request.
In the MSRPC protocol used by Microsoft Windows, each TCP-based request begins with 05 at the start of the request (representing Microsoft DCE/RPC Version 5), followed immediately by a 00 or 01 for the minor version. In UDP-based MSRPC requests the first byte is always 04.
In COM and DCOM marshalled interfaces, called OBJREFs, always start with the byte sequence "MEOW" (4D454F57). Debugging extensions (used for DCOM channel hooking) are prefaced with the byte sequence "MARB" (4D415242).
Unencrypted BitTorrent tracker requests begin with a single byte containing the value 19 representing the header length, followed immediately by the phrase "BitTorrent protocol" at byte position 1.
eDonkey2000/eMule traffic begins with a single byte representing the client version. Currently E3 represents an eDonkey client, C5 represents eMule, and D4 represents compressed eMule.
The first 4 bytes of a block in the Bitcoin Blockchain contains a magic number which serves as the network identifier. The value is a constant 0xD9B4BEF9, which indicates the main network, while the constant 0xDAB5BFFA indicates the testnet.
SSL transactions always begin with a "client hello" message. The record encapsulation scheme used to prefix all SSL packets consists of two- and three- byte header forms. Typically an SSL version 2 client hello message is prefixed with a 80 and an SSLv3 server response to a client hello begins with 16 (though this may vary).
DHCP packets use a "magic cookie" value of '0x630x820x530x63' at the start of the options section of the packet. This value is included in all DHCP packet types.
HTTP/2 connections are opened with the preface '0x505249202a20485454502f322e300d0a0d0a534d0d0a0d0a', or "PRI * HTTP/2.0\r\n\r\nSM\r\n\r\n". The preface is designed to avoid the processing of frames by servers and intermediaries which support earlier versions of HTTP but not 2.0.
IBM PC-compatible BIOSes use magic values 0000 and 1234 to decide if the system should count up memory or not on reboot, thereby performing a cold or a warm boot. Theses values are also used by EMM386 memory managers intercepting boot requests.[13] BIOSes also use magic values 55 AA to determine if a disk is bootable.[14]
The MS-DOS disk cache SMARTDRV (codenamed "Bambi") uses magic values BABE and EBAB in API functions.[13]
Many DR DOS, Novell DOS and OpenDOS drivers developed in the former European Development Centre in the UK use the value 0EDC as magic token when invoking or providing additional functionality sitting on top of the (emulated) standard DOS functions, NWCACHE being one example.[13]
It is possible to create or alter globally unique identifiers (GUIDs) so that they are memorable, but this is highly discouraged as it compromises their strength as near-unique identifiers.[17][18] The specifications for generating GUIDs and UUIDs are quite complex, which is what leads to them being virtually unique, if properly implemented.[19]
Microsoft Windows product ID numbers for Microsoft Office products sometimes end with 0000-0000-0000000FF1CE ("OFFICE"), such as {90160000-008C-0000-0000-0000000FF1CE}, the product ID for the "Office 16 Click-to-Run Extensibility Component".
Java uses several GUIDs starting with CAFEEFAC.[20]
In the GUID Partition Table of the GPT partitioning scheme, BIOS Boot partitions use the special GUID {21686148-6449-6E6F-744E-656564454649}[21] which does not follow the GUID definition; instead, it is formed by using the ASCII codes for the string "Hah!IdontNeedEFI" partially in little endian order.[22]
Debug values
Magic debug values are specific values written to memory during allocation or deallocation, so that it will later be possible to tell whether or not they have become corrupted, and to make it obvious when values taken from uninitialized memory are being used. Memory is usually viewed in hexadecimal, so memorable repeating or hexspeak values are common. Numerically odd values may be preferred so that processors without byte addressing will fault when attempting to use them as pointers (which must fall at even addresses). Values should be chosen that are away from likely addresses (the program code, static data, heap data, or the stack). Similarly, they may be chosen so that they are not valid codes in the instruction set for the given architecture.
Since it is very unlikely, although possible, that a 32-bit integer would take this specific value, the appearance of such a number in a debugger or memory dump most likely indicates an error such as a buffer overflow or an uninitialized variable.
Famous and common examples include:
Code
Description
00008123
Used in MS Visual C++. Deleted pointers are set to this value, so they throw an exception, when they are used after; it is a more recognizable alias for the zero address. It is activated with the Security Development Lifecycle (/sdl) option.[23]
"Ate bad food", Indicates that an AppleiOS application has been terminated because a watchdog timeout occurred.[25]
A5A5A5A5
Used in embedded development because the alternating bit pattern (1010 0101) creates an easily recognized pattern on oscilloscopes and logic analyzers.
A5
Used in FreeBSD's PHK malloc(3) for debugging when /etc/malloc.conf is symlinked to "-J" to initialize all newly allocated memory as this value is not a NULL pointer or ASCII NUL character.
ABABABAB
Used by Microsoft's debug HeapAlloc() to mark "no man's land" guard bytes after allocated heap memory.[26]
ABADBABE
"A bad babe", Used by Apple as the "Boot Zero Block" magic number
Used by Microsoft's C++ debugging runtime library and many DOS environments to mark uninitialized stack memory. CC is the opcode of the INT 3 debug breakpoint interrupt on x86 processors.[30]
CDCDCDCD
Used by Microsoft's C/C++ debug malloc() function to mark uninitialized heap memory, usually returned from HeapAlloc()[26]
0D15EA5E
"Zero Disease", Used as a flag to indicate regular boot on the GameCube and Wii consoles
DDDDDDDD
Used by MicroQuill's SmartHeap and Microsoft's C/C++ debug free() function to mark freed heap memory[26]
DEAD10CC
"Dead lock", Indicates that an AppleiOS application has been terminated because it held on to a system resource while running in the background[25]
"Dead Dead" indicates that the user deliberately initiated a crash dump from either the kernel debugger or the keyboard under Microsoft Windows.[32]
D00D2BAD
"Dude, Too Bad", Used by Safari crashes on macOS Big Sur.[33]
D00DF33D
"Dude feed", Used by the devicetree to mark the start of headers.[34]
EBEBEBEB
From MicroQuill's SmartHeap
FADEDEAD
"Fade dead", Comes at the end to identify every AppleScript script
FDFDFDFD
Used by Microsoft's C/C++ debug malloc() function to mark "no man's land" guard bytes before and after allocated heap memory,[26] and some debug Secure C-Runtime functions implemented by Microsoft (e.g. strncat_s) [35]
Used by VLC player and some IP cameras in RTP/RTCP protocol, VLC player sends four bytes in the order of the endianness of the system. Some IP cameras expect the player to send this magic number and do not start the stream if it is not received.
FEEEFEEE
"Fee fee", Used by Microsoft's debug HeapFree() to mark freed heap memory. Some nearby internal bookkeeping values may have the high word set to FEEE as well.[26]
Most of these are 32 bits long – the word size of most 32-bit architecture computers.
The prevalence of these values in Microsoft technology is no coincidence; they are discussed in detail in Steve Maguire's book Writing Solid Code from Microsoft Press. He gives a variety of criteria for these values, such as:
They should not be useful; that is, most algorithms that operate on them should be expected to do something unusual. Numbers like zero don't fit this criterion.
They should be easily recognized by the programmer as invalid values in the debugger.
On machines that don't have byte alignment, they should be odd numbers, so that dereferencing them as addresses causes an exception.
They should cause an exception, or perhaps even a debugger break, if executed as code.
Since they were often used to mark areas of memory that were essentially empty, some of these terms came to be used in phrases meaning "gone, aborted, flushed from memory"; e.g. "Your program is DEADBEEF".[citation needed]
^ abcPaul, Matthias R. (2002-04-03). "[fd-dev] Ctrl+Alt+Del". freedos-dev. Archived from the original on 2017-09-09. Retrieved 2017-09-09. (NB. Mentions a number of magic values used by IBM PC-compatible BIOSes (0000h, 1234h), DOS memory managers like EMM386 (1234h) and disk caches like SMARTDRV (EBABh, BABEh) and NWCACHE (0EDCh, EBABh, 6756h).)
ChartresNegaraPrancis Pemandangan kota Chartres Chartres merupakan nama kota di Prancis. Letaknya di bagian tengah. Tepatnya di region Centre, Prancis. Pada tahun 1999, kota ini memiliki jumlah penduduk sebanyak 40.361 jiwa dengan memiliki luas wilayah 16,85 km². Kota ini memiliki angka kepadatan penduduk sebanyak 2.395 jiwa/km². Pranala luar Wikimedia Commons memiliki media mengenai Chartres. Situs resmi Diarsipkan 2011-05-29 di Wayback Machine. lbsPrefektur dari departemen di Prancis...
Grand Prix Hungaria 2017 Lomba ke-11 dari 20 dalam Formula Satu musim 2017← Lomba sebelumnyaLomba berikutnya → Tata letak sirkuit Hungaroring.Detail perlombaan[1]Tanggal 30 Juli 2017Nama resmi Formula 1 Pirelli Magyar Nagydíj 2017[2][3]Lokasi HungaroringMogyoród, HungariaSirkuit Fasilitas balapan permanenPanjang sirkuit 4.381 km (2.722 mi)Jarak tempuh 70 putaran, 306.630 km (190.531 mi)Cuaca CerahPenonton 199,000[4]Posisi polePembalap ...
Gulai kambingGulai kambing khas PadangJenisKariSajianHidangan utamaTempat asalIndonesiaDaerahSumatera BaratDibuat olehMinangkabauSuhu penyajianhangatBahan utamaGulaiSunting kotak info • L • BBantuan penggunaan templat ini Gulai kambing adalah sebuah hidangan Indonesia tradisional berbahan utama daging domba atau kambing yang dimasak dengan saus mirip kari pedas dan berwarna kekuningan bernama gulai.[1] Hidangan tersebut berasal dari Sumatera Barat (Padang). Hidangan ters...
Australian federal electoral division PetrieAustralian House of Representatives DivisionMapInteractive map of boundariesCreated1949MPLuke HowarthPartyLiberal NationalNamesakeAndrew PetrieElectors124,966 (2022)Area152 km2 (58.7 sq mi)DemographicOuter metropolitan The Division of Petrie is an Australian Electoral Division in Queensland. History Andrew Petrie, the division's namesake The division was created in 1949 and named after Andrew Petrie (1798–1872), a noted civil e...
Men's marathon T54at the XVI Paralympic GamesVenueTokyo National StadiumDates5 September 2021Competitors15 from 9 nationsMedalists Marcel Hug Switzerland Zhang Yong China Daniel Romanchuk United States←2016 Athletics at the2020 Summer ParalympicsTrack events100 mmenwomen200 mmenwomen400 mmenwomen800 mmenwomen1500 mmenwomen5000 mmenwomen4×100 m relaymixedRoad eventsMarathonmenwomenField eventsLong jumpmenwomenHigh jumpmenShot putmenwomenDiscus throwmenwomenJavel...
Chilean painter Ximena ArmasSecrets by Ximena Armas.BornXimena Armas Fernández (1946-07-29) 29 July 1946 (age 77)Santiago, ChileNationalityChileanEducation Escuela de Bellas Artes at the Universidad de Chile Escuela de Artes at the Universidad Católica de Chile École nationale supérieure des arts décoratifs in Paris École nationale supérieure des Beaux-Arts in Paris SpouseHenri RicheletPatron(s)Mario Carreño and Mario Toral Websitehttp://ximena.armas.2.free.fr Ximena Armas (born ...
Calendar year Millennium: 2nd millennium Centuries: 18th century 19th century 20th century Decades: 1850s 1860s 1870s 1880s 1890s Years: 1875 1876 1877 1878 1879 1880 1881 1878 by topic Humanities Archaeology Architecture Art Literature Poetry Music By country Australia Belgium Brazil Canada China Denmark France Germany New Zealand Norway Portugal Russia South Africa Sweden United Kingdom United States Other topics Rail transport Science Sports Lists of leaders Sovereign ...
Protein-coding gene in the species Homo sapiens For the failed Formula One team, see US F1 Team. This article may require copy editing for grammar, style, cohesion, tone, or spelling. You can assist by editing it. (December 2023) (Learn how and when to remove this message) USF1Available structuresPDBOrtholog search: PDBe RCSB List of PDB id codes1AN4IdentifiersAliasesUSF1, FCHL, FCHL1, HYPLIP1, MLTF, MLTFI, UEF, bHLHb11, upstream transcription factor 1External IDsOMIM: 191523 MGI: 99542 Homol...
Державний комітет телебачення і радіомовлення України (Держкомтелерадіо) Приміщення комітетуЗагальна інформаціяКраїна УкраїнаДата створення 2003Керівне відомство Кабінет Міністрів УкраїниРічний бюджет 1 964 898 500 ₴[1]Голова Олег НаливайкоПідвідомчі ор...
وزير الصحة التركي فخر الدين قوجة معلومات شخصية الميلاد 2 يناير 1965 (العمر 59 سنة)قونية، تركيا الإقامة أنقرة، تركيا الجنسية تركيا الديانة الإسلام، أهل السنة والجماعة عضو في حزب العدالة والتنمية الزوجة هيلّ كوجا عدد الأولاد 4 منصب وزير الصحة التركي انتخب في 9 يوليو 2018 الحيا�...
IAAF Diamond League 2013 Competizione Diamond League Sport Atletica leggera Edizione IV Organizzatore IAAF Date 10 maggio - 6 settembre Discipline 32(16 maschili + 16 femminili) Sito web diamondleague.com Cronologia della competizione 2012 2014 Manuale La IAAF Diamond League 2013 (o semplicemente Diamond League 2013) è stata la quarta edizione della Diamond League, serie di meeting internazionali di atletica leggera organizzata annualmente dalla IAAF. È iniziata il 10 maggio ed è terminat...
Anatolian beylik The Beylik of Menteshe (blue) in 1300 Part of a series on the History of Turkey PrehistoryPrehistory of Anatolia Palaeolithic Anatolia c. 500,000– 10,000 BC Mesolithic Anatolia c. 11,000– 9,000 BC Neolithic Anatolia c. 8,000– 5,500 BC Bronze AgeTroy 3000–700 BCHattians 2500–2000 BCAkkadian Empire 2400–2150 BCLuwians 2300–1400 BCAssyria 1950–1750 BCKussara 1780–1680 BCAchaeans (Homer) 1700–1300 BCKizzuwatna 1650–1450 BCHittites 1680–1220 ...
State park in Madison County, New York Chittenango Falls State ParkChittenango Falls in May 2007Location of Chittenango Falls State Park within New York StateTypeState parkLocation2300 Rathbun Road Cazenovia, New York[1]Nearest citySyracuse, New YorkCoordinates42°59′N 75°51′W / 42.98°N 75.85°W / 42.98; -75.85Area193 acres (0.78 km2)[2]Created1922 (1922)[3]Operated byNew York State Office of Parks, Recreation and Histo...
Sungai PanduSungai PanduLokasiNegaraIndonesiaProvinsiKalimantan SelatanCiri-ciri fisikHulu sungai - lokasiKalimantan Muara sungaiSungai AyaniPanjang300 m Sungai Pandu adalah sungai yang mengalir di kota Banjarmasin, Kalimantan Selatan, Indonesia. Geografi Sungai ini mengalir di kelurahan Kebun Bunga, kecamatan Banjarmasin Timur, Kota Banjarmasin dan bermuara ke Sungai Ayani.[1] Sungai Pandu memiliki panjang 300 m dengan lebar 2-5 m.[2] Lihat pula Daftar sungai ...
Voce principale: Fussballclub Wohlen 1904. Fussballclub Wohlen 1904Stagione 2012-2013Sport calcio Squadra Wohlen Allenatore David Sesa All. in seconda Umberto Romano Presidente Andy Wyder Challenge League8º posto Coppa SvizzeraOttavi di finale Maggiori presenzeCampionato: Tosetti (36)Totale: Tosetti (36) Miglior marcatoreCampionato: Milani (9)Totale: Milani (9) StadioStadion Niedermatten Maggior numero di spettatori4 200 vs. Aarau Minor numero di spettatori420 vs. Locarno Media sp...
English cricketer This article includes a list of general references, but it lacks sufficient corresponding inline citations. Please help to improve this article by introducing more precise citations. (April 2017) (Learn how and when to remove this message) Bill HitchCricket informationBattingRight-handedBowlingRight-arm fastInternational information National sideEnglandTest debut30 December 1911 v AustraliaLast Test13 August 1921 v Australia Career statistics Competition ...
Disused railway station in Newington, London Borough RoadBorough RoadLocation of Borough Road in Central LondonLocationNewingtonLocal authoritySouthwarkGrid referenceTQ320795Number of platforms4[1]Railway companiesOriginal companyLondon, Chatham and Dover RailwayKey dates1 June 1864 (1864-06-01)Opened1 April 1907 (1907-04-01)ClosedOther informationCoordinates51°29′56″N 0°05′59″W / 51.4990°N 0.0997°W / 51.4990; -0.0997 L...
University in Hungary University of SzegedSzegedi TudományegyetemSealLatin: Universitas Scientiarum SzegediensisFormer nameFerenc József University of Kolozsvár, József Attila TudományegyetemMottoLatin: Veritas. Virtus. LibertasMotto in EnglishTruth. Bravery. Freedom.TypePublic research universityEstablished1872; 152 years ago (1872)FounderFranz Joseph IAffiliationEuropean University Association, Science Without Borders, Confucius InstituteBudgetUS$220 millionChanc...