# Tables 1 to 20

During childhood, parents put pressure on their children to learn tables, especially from 1 to 20, because it is supposed that we need to be perfect enough on the mathematical tables to perform our calculations easily.

Mathematical tables are also known as multiplication tables and various pattern forms when we observe them, and almost every person has a way of remembering mathematical tables. Let us check the mathematical tables from 1 to 20, and at the same time, we will observe the interesting pattern in these tables.

## Mathematical Table of 1

 1 X 1 = 1 1 X 2 = 2 1 X 3 = 3 1 X 4 = 4 1 X 5 = 5 1 X 6 = 6 1 X 7 = 7 1 X 8 = 8 1 X 9 = 9 1 X 10 = 10

## Mathematical Table of 2

In the multiplication table of 2, we observed an interesting pattern in the last column, where we saw a difference of two in each resulting element. The cross sign in the second column indicates our multiplication operation used here. This is one of the easiest mathematical tables which almost every kid must remember.

 2 X 1 = 2 2 X 2 = 4 2 X 3 = 6 2 X 4 = 8 2 X 5 = 10 2 X 6 = 12 2 X 7 = 14 2 X 8 = 16 2 X 9 = 18 2 X 10 = 20

## Mathematical Table of 3

In the multiplication table of 3, we observed a unique pattern in the last column where we saw a difference of three in each resulting element; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, which shows the multiplication operation implemented with three to get the desired result.

 3 X 1 = 3 3 X 2 = 6 3 X 3 = 9 3 X 4 = 12 3 X 5 = 15 3 X 6 = 18 3 X 7 = 21 3 X 8 = 24 3 X 9 = 27 3 X 10 = 30

## Mathematical Table of 4

In the Mathematical multiplication table of 4, we observed a unique pattern with a difference of four coming out every time. Moreover, every single term occurring in the table is even. No resulting term is odd in this multiplication table. The cross sign in the second columns indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, showing the multiplication operation implemented without forgetting the desired result.

 4 X 1 = 4 4 X 2 = 8 4 X 3 = 12 4 X 4 = 16 4 X 5 = 20 4 X 6 = 24 4 X 7 = 28 4 X 8 = 32 4 X 9 = 36 4 X 10 = 40

## Mathematical Table of 5

In the mathematical multiplication table of 5, we observed a unique pattern where every resulting element has a difference of 5 in each interval. One more interesting thing that almost every student must have noted while remembering mathematical table of 5 is in each resulting element, the one's place will show a pattern of 5,0,5,0, and so on. The cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, showing the multiplication operation implemented with five to get the desired result.

 5 X 1 = 5 5 X 2 = 10 5 X 3 = 15 5 X 4 = 20 5 X 5 = 25 5 X 6 = 30 5 X 7 = 35 5 X 8 = 40 5 X 9 = 45 5 X 10 = 50

## Mathematical table of 6

In the mathematical multiplication table of 6, we observed a unique pattern where a difference of 6 is noted in every resulting interval; the sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, showing the multiplication operation being implemented with six for the desired result.

 6 X 1 = 6 6 X 2 = 12 6 X 3 = 18 6 X 4 = 24 6 X 5 = 30 6 X 6 = 36 6 X 7 = 42 6 X 8 = 48 6 X 9 = 54 6 X 10 = 60

## Mathematical table of 7

In the mathematical multiplication of 7, we observed a unique pattern with a difference of seven coming every time; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten showing the multiplication operation implemented with seven to get the desired result.

 7 X 1 = 7 7 X 2 = 14 7 X 3 = 21 7 X 4 = 28 7 X 5 = 35 7 X 6 = 42 7 X 7 = 49 7 X 8 = 56 7 X 9 = 63 7 X 10 = 70

## Mathematical Table of 8

In the mathematical multiplication of eight, we observed a unique pattern with a difference of eight coming every time; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have rote the counting from one to ten, showing the multiplication operation implemented with eight to get the desired result.

 8 X 1 = 8 8 X 2 = 16 8 X 3 = 24 8 X 4 = 32 8 X 5 = 40 8 X 6 = 48 8 X 7 = 56 8 X 8 = 64 8 X 9 = 72 8 X 10 = 80

## Mathematical Table of 9

In the mathematical multiplication of nine, we observed a unique pattern with a difference of nine coming every time. One more interesting fact that we observed while writing the mathematical multiplication table of 9 is that in the one's place of the resulting element, we are writing the counting one to nine from bottom to top. We are writing the counting one to nine from top to bottom at ten's place; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, showing that the multiplication operation implemented with nine gets the desired result.

 9 X 1 = 9 9 X 2 = 18 9 X 3 = 27 9 X 4 = 36 9 X 5 = 45 9 X 6 = 54 9 X 7 = 63 9 X 8 = 72 9 X 9 = 81 9 X 10 = 90

## Multiplication table of 10

In the mathematical multiplication of ten, we observed a unique pattern with a difference of ten coming every time. Another interesting fact we observed while writing the mathematical multiplication table of Ten is that we are writing zero from top to bottom in the one's place of the resulting element. We are writing the counting one to ten from top to bottom at ten's place; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, showing the multiplication operation implemented with ten to get the desired result.

 10 X 1 = 10 10 X 2 = 20 10 X 3 = 30 10 X 4 = 40 10 X 5 = 50 10 X 6 = 60 10 X 7 = 70 10 X 8 = 80 10 X 9 = 90 10 X 10 = 100

## Multiplication Table of 11

In the mathematical multiplication of eleven, we observed a unique pattern where there is a difference of eleven is coming every time; one more interesting factor in the multiplication table of eleven is that whenever we multiply a number by eleven, then the resulting element is the same and written exactly two times as that of an element with which it is being multiplied. The cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, showing the multiplication operation implemented with eleven to get the desired result.

 11 X 1 = 11 11 X 2 = 22 11 X 3 = 33 11 X 4 = 44 11 X 5 = 55 11 X 6 = 66 11 X 7 = 77 11 X 8 = 88 11 X 9 = 99 11 X 10 = 110

## Multiplication Table of 12

In the mathematical multiplication of twelve, we observed a unique pattern with a difference of twelve coming every time; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, which shows the multiplication operation implemented with twelve to get the desired result.

 12 X 1 = 12 12 X 2 = 24 12 X 3 = 36 12 X 4 = 48 12 X 5 = 60 12 X 6 = 72 12 X 7 = 84 12 X 8 = 96 12 X 9 = 108 12 X 10 = 120

## Multiplication Table of 13

In the mathematical multiplication of thirteen, we observed a unique pattern where there is a difference of thirteen coming every time; the cross sign in the second column indicates the column, we have written the counting from one to ten, showing the multiplication operation implemented with thirteen to get the desired result.

 13 X 1 = 13 13 X 2 = 26 13 X 3 = 39 13 X 4 = 52 13 X 5 = 65 13 X 6 = 78 13 X 7 = 91 13 X 8 = 104 13 X 9 = 117 13 X 10 = 130

## Multiplication Table of 14

In the mathematical multiplication of fourteen, we observed a unique pattern where there is a difference of fourteen coming every time; the cross sign in the second column indicates the multiplication operation that is being used here. In the third column, we have written the counting from one to ten, showing the multiplication operation implemented with fourteen to get the desired result.

 14 X 1 = 14 14 X 2 = 28 14 X 3 = 42 14 X 4 = 56 14 X 5 = 70 14 X 6 = 84 14 X 7 = 98 14 X 8 = 112 14 X 9 = 126 14 X 10 = 140

## Multiplication Table of 15

In the mathematical multiplication of fifteen, we observed a unique pattern where there is a difference of fifteen coming every time; in this table, there is an interesting fact that in every next interval, we will find a repeated pattern of five and zero coming every time. The cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, which shows the multiplication operation implemented with fourteen to get the desired result.

 15 X 1 = 15 15 X 2 = 30 15 X 3 = 45 15 X 4 = 60 15 X 5 = 75 15 X 6 = 90 15 X 7 = 105 15 X 8 = 120 15 X 9 = 135 15 X 10 = 150

## Multiplication Table of 16

In the mathematical multiplication of sixteen, we observed a unique pattern where a difference of sixteen is coming every time; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, showing the multiplication operation implemented with sixteen to get the desired result.

 16 X 1 = 16 16 X 2 = 32 16 X 3 = 48 16 X 4 = 64 16 X 5 = 80 16 X 6 = 96 16 X 7 = 112 16 X 8 = 128 16 X 9 = 144 16 X 10 = 160

## Multiplication Table of 17

In the mathematical multiplication of seventeen, we observed a unique pattern with a difference of seventeen coming every time; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, showing the multiplication operation implemented with seventeen to get the desired result.

 17 X 1 = 17 17 X 2 = 34 17 X 3 = 51 17 X 4 = 68 17 X 5 = 85 17 X 6 = 102 17 X 7 = 119 17 X 8 = 136 17 X 9 = 153 17 X 10 = 170

## Multiplication Table of 18

In the mathematical multiplication of eighteen, we observed a unique pattern with a difference of eighteen coming every time; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten, showing the multiplication operation implemented with eighteen to get the desired result.

 18 X 1 = 18 18 X 2 = 36 18 X 3 = 54 18 X 4 = 72 18 X 5 = 90 18 X 6 = 108 18 X 7 = 126 18 X 8 = 144 18 X 9 = 162 18 X 10 = 180

## Multiplication Table of 19

In the mathematical multiplication of nineteen, we observed a unique pattern where a difference of nineteen is coming every time; the cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten showing the multiplication operation implemented with nineteen to get the desired result.

 19 X 1 = 19 19 X 2 = 38 19 X 3 = 57 19 X 4 = 76 19 X 5 = 95 19 X 6 = 114 19 X 7 = 133 19 X 8 = 152 19 X 9 = 171 19 X 10 = 190

## Multiplication Table of 20

In the multiplication of twenty, we observed a unique pattern with a difference of twenty coming every time; a unique feature in the multiplication table of twenty is that it is identified as two's table. The only difference in this table is that it has all zeros in one's place. The cross sign in the second column indicates the multiplication operation used here. In the third column, we have written the counting from one to ten showing the multiplication operation implemented with twenty to get the desired result.

 20 X 1 = 20 20 X 2 = 40 20 X 3 = 60 20 X 4 = 80 20 X 5 = 100 20 X 6 = 120 20 X 7 = 140 20 X 8 = 160 20 X 9 = 180 20 X 10 = 200