"Times table" redirects here. For a table of departure and arrival times, see Timetable (disambiguation).
In mathematics, a multiplication table (sometimes, less formally, a times table) is a mathematical table used lớn define a multiplication operation for an algebraic system.
The decimal multiplication table was traditionally taught as an essential part of elementary arithmetic around the world, as it lays the foundation for arithmetic operations with baseten numbers. Many educators believe it is necessary lớn memorize the table up lớn 9 × 9.^{[1]}
History[edit]
Premodern times[edit]
The oldest known multiplication tables were used by the Babylonians about 4000 years ago.^{[2]} However, they used a base of 60.^{[2]} The oldest known tables using a base of 10 are the Chinese decimal multiplication table on bamboo strips dating lớn about 305 BC, during China's Warring States period.^{[2]}
The multiplication table is sometimes attributed lớn the ancient Greek mathematician Pythagoras (570–495 BC). It is also called the Table of Pythagoras in many languages (for example French, Italian and Russian), sometimes in English.^{[4]} The GrecoRoman mathematician Nichomachus (60–120 AD), a follower of Neopythagoreanism, included a multiplication table in his Introduction lớn Arithmetic, whereas the oldest surviving Greek multiplication table is on a wax tablet dated lớn the 1st century AD and currently housed in the British Museum.^{[5]}
In 493 AD, Victorius of Aquitaine wrote a 98column multiplication table which gave (in Roman numerals) the product of every number from 2 lớn 50 times and the rows were "a list of numbers starting with one thousand, descending by hundreds lớn one hundred, then descending by tens lớn ten, then by ones lớn one, and then the fractions down lớn 1/144."^{[6]}
Modern times[edit]
In his 1820 book The Philosophy of Arithmetic,^{[7]} mathematician John Leslie published a multiplication table up lớn 99 × 99, which allows numbers lớn be multiplied in pairs of digits at a time. Leslie also recommended that young pupils memorize the multiplication table up lớn 50 × 50.
The illustration below shows a table up lớn 12 × 12, which is a size commonly used nowadays in Englishworld schools.
×  0  1  2  3  4  5  6  7  8  9  10  11  12 

0  0  0  0  0  0  0  0  0  0  0  0  0  0 
1  0  1  2  3  4  5  6  7  8  9  10  11  12 
2  0  2  4  6  8  10  12  14  16  18  20  22  24 
3  0  3  6  9  12  15  18  21  24  27  30  33  36 
4  0  4  8  12  16  20  24  28  32  36  40  44  48 
5  0  5  10  15  20  25  30  35  40  45  50  55  60 
6  0  6  12  18  24  30  36  42  48  54  60  66  72 
7  0  7  14  21  28  35  42  49  56  63  70  77  84 
8  0  8  16  24  32  40  48  56  64  72  80  88  96 
9  0  9  18  27  36  45  54  63  72  81  90  99  108 
10  0  10  20  30  40  50  60  70  80  90  100  110  120 
11  0  11  22  33  44  55  66  77  88  99  110  121  132 
12  0  12  24  36  48  60  72  84  96  108  120  132  144 
In Trung Quốc, however, because multiplication of integers is commutative, many schools use a smaller table as below. Some schools even remove the first column since 1 is the multiplicative identity.
1  1  
2  2  4  
3  3  6  9  
4  4  8  12  16  
5  5  10  15  20  25  
6  6  12  18  24  30  36  
7  7  14  21  28  35  42  49  
8  8  16  24  32  40  48  56  64  
9  9  18  27  36  45  54  63  72  81 
×  1  2  3  4  5  6  7  8  9 
The traditional rote learning of multiplication was based on memorization of columns in the table, in a khuông like
1 × 10 = 10
2 × 10 = 20
3 × 10 = 30
4 × 10 = 40
5 × 10 = 50
6 × 10 = 60
7 × 10 = 70
8 × 10 = 80
9 × 10 = 90
This khuông of writing the multiplication table in columns with complete number sentences is still used in some countries, such as Bosnia and Herzegovina,^{[citation needed]} instead of the modern grids above.
Patterns in the tables[edit]
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There is a pattern in the multiplication table that can help people lớn memorize the table more easily. It uses the figures below:
→  →  
↑  1  2  3  ↓  ↑  2  4  ↓  

4  5  6  
7  8  9  6  8  
←  ←  
0  5  0  
Figure 1: Odd  Figure 2: Even 
Figure 1 is used for multiples of 1, 3, 7, and 9. Figure 2 is used for the multiples of 2, 4, 6, and 8. These patterns can be used lớn memorize the multiples of any number from 0 lớn 10, except 5. As you would start on the number you are multiplying, when you multiply by 0, you stay on 0 (0 is external and so sánh the arrows have no effect on 0, otherwise 0 is used as a links lớn create a perpetual cycle). The pattern also works with multiples of 10, by starting at 1 and simply adding 0, giving you 10, then just apply every number in the pattern lớn the "tens" unit as you would normally tự as usual lớn the "ones" unit.
For example, lớn recall all the multiples of 7:
 Look at the 7 in the first picture and follow the arrow.
 The next number in the direction of the arrow is 4. So think of the next number after 7 that ends with 4, which is 14.
 The next number in the direction of the arrow is 1. So think of the next number after 14 that ends with 1, which is 21.
 After coming lớn the top of this column, start with the bottom of the next column, and travel in the same direction. The number is 8. So think of the next number after 21 that ends with 8, which is 28.
 Proceed in the same way until the last number, 3, corresponding lớn 63.
 Next, use the 0 at the bottom. It corresponds lớn 70.
 Then, start again with the 7. This time it will correspond lớn 77.
 Continue lượt thích this.
In abstract algebra[edit]
Tables can also define binary operations on groups, fields, rings, and other algebraic systems. In such contexts they are called Cayley tables. Here are the addition and multiplication tables for the finite field Z_{5}:
 for every natural number n, there are also addition and multiplication tables for the ring Z_{n}.


For other examples, see group, and octonion.
Chinese and Japanese multiplication tables[edit]
Mokkan discovered at Heijō Palace suggest that the multiplication table may have been introduced lớn nhật bản through Chinese mathematical treatises such as the Sunzi Suanjing, because their expression of the multiplication table share the character 如 in products less than thở ten.^{[8]} Chinese and Japanese share a similar system of eightyone short, easily memorable sentences taught lớn students lớn help them learn the multiplication table up lớn 9 × 9. In current usage, the sentences that express products less than thở ten include an additional particle in both languages. In the case of modern Chinese, this is 得 (dé); and in Japanese, this is が (ga). This is useful for those who practice calculation with a suanpan or a soroban, because the sentences remind them lớn shift one column lớn the right when inputting a product that does not begin with a tens digit. In particular, the Japanese multiplication table uses nonstandard pronunciations for numbers in some specific instances (such as the replacement of san roku with saburoku).
Warring States decimal multiplication bamboo slips[edit]
A bundle of 21 bamboo slips dated 305 BC in the Warring States period in the Tsinghua Bamboo Slips (清華簡) collection is the world's earliest known example of a decimal multiplication table.^{[9]}
A modern representation of the Warring States decimal multiplication table used lớn calculate 12 × 34.5
Standardsbased mathematics reform in the US[edit]
In 1989, the National Council of Teachers of Mathematics (NCTM) developed new standards which were based on the belief that all students should learn higherorder thinking skills, which recommended reduced emphasis on the teaching of traditional methods that relied on rote memorization, such as multiplication tables. Widely adopted texts such as Investigations in Numbers, Data, and Space (widely known as TERC after its producer, Technical Education Research Centers) omitted sida such as multiplication tables in early editions. NCTM made it clear in their 2006 Focal Points that basic mathematics facts must be learned, though there is no consensus on whether rote memorization is the best method. In recent years, a number of nontraditional methods have been devised lớn help children learn multiplication facts, including videogame style apps and books that aim lớn teach times tables through characterbased stories.
See also[edit]
 Vedic square
 IBM 1620, an early computer that used tables stored in memory lớn perform addition and multiplication
References[edit]
 ^ Trivett, John (1980), "The Multiplication Table: To Be Memorized or Mastered!", For the Learning of Mathematics, 1 (1): 21–25, JSTOR 40247697.
 ^ ^{a} ^{b} ^{c} Qiu, Jane (January 7, 2014). "Ancient times table hidden in Chinese bamboo strips". Nature News. doi:10.1038/nature.2014.14482. S2CID 130132289.
 ^ Wikisource:Page:Popular Science Monthly Volume 26.djvu/467
 ^ for example in An Elementary Treatise on Arithmetic by John Farrar
 ^ David E. Smith (1958), History of Mathematics, Volume I: General Survey of the History of Elementary Mathematics. New York: Dover Publications (a reprint of the 1951 publication), ISBN 0486204294, pp. 58, 129.
 ^ David W. Maher and John F. Makowski. "Literary evidence for Roman arithmetic with fractions". Classical Philology, 96/4 (October 2001), p. 383.
 ^ Leslie, John (1820). The Philosophy of Arithmetic; Exhibiting a Progressive View of the Theory and Practice of Calculation, with Tables for the Multiplication of Numbers as Far as One Thousand. Edinburgh: Abernethy & Walker.
 ^ "「九九」は中国伝来…平城宮跡から木簡出土". Yomiuri Shimbun. December 4, 2010. Archived from the original on December 7, 2010.
 ^ Nature article The 2,300yearold matrix is the world's oldest decimal multiplication table
1 x 1 lớn 23 x 23
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