Want this question answered?
55 and its multiples. 1, 5, and 55 are all in both the 5 times and 11 times tables.
all of the numbers in the 15 times tables and 3 and 5
The six times tables are any and all multiples of 6. Therefore, any numbers that divide evenly by 6 will be in the six times tables, and any that don't won't be. 90/6 = 15, and so 90 does divide evenly by 6. Thus, 90 is in the six times tables.
All numbers that are multiples of three. This is an infinite number of numbers.
The 4's times tables can be determined by taking 4 times all numbers, as high as you would like to go for the table size. For example 4x1=4, 4x2=8, 4x3=12, and so on until you get the desired amout of products for the table.
55 and its multiples. 1, 5, and 55 are all in both the 5 times and 11 times tables.
all of the numbers in the 15 times tables and 3 and 5
The six times tables are any and all multiples of 6. Therefore, any numbers that divide evenly by 6 will be in the six times tables, and any that don't won't be. 90/6 = 15, and so 90 does divide evenly by 6. Thus, 90 is in the six times tables.
2: 2,4,6,8,10,12,14,16,18,20...4: 4,8,12,16,20,24,28,32,36,40...Half of all numbers divisible by 2 are divisible by 4.All numbers divisible by 4 are divisible by 2.
Since 6 is a multiple of 3, all of the numbers in the 6 times table will be contained in the 3 times table.
All numbers that are multiples of three. This is an infinite number of numbers.
The 4's times tables can be determined by taking 4 times all numbers, as high as you would like to go for the table size. For example 4x1=4, 4x2=8, 4x3=12, and so on until you get the desired amout of products for the table.
God
7
Whan I went to school (Decades ago) we had the 12 times tables we went from 1 x1 = 2. 1 x 2 + 2 and all the way through the numbers multiplying each number by 1 and right up to 12 I guess the 22 times tables are like that except they go from 1 up to 22.
18 times 50 is 90
Wikipedia.org has useful tables of primes.