The word "another" in the question implies that you already have one pattern in mind. But you have chosen not to share that information. As a result I do not know if the pattern that I can think of is really another pattern or is simply the one you already know of. Consequently, there is way to answer the question in a sensible way.
Anything in the 20 times table.
Since 6 is a multiple of 3, all of the numbers in the 6 times table will be contained in the 3 times table.
The factors of a given number are those numbers which divide into the given number exactly without any remainder. The multiples of a given number are those numbers into which the given number divides exactly with no remainder (that is the given number's times table). example The factors of 60 are: 1, 2, 3, 4, 5, 6, 10, 12, 15, 20, 30, 60 since they all divide into 60 without any remainder The multiples of 60 are: 60, 120, 180, 240, 300, 360, 420, 480, 540, 600, (and so on) since they are all divisible by 60 with no remainder.
By making of table of their values, and when you find a multiple that matches, that's the LCM. The answer is 24
He is credited as being the creator of the first version of the periodic table of elements. Using the table, he predicted the properties of elements yet to be discovered.
By making a table of multiples and finding when the multiples for every number is the same.
A multiple of a number is in that number's times table. For example, a multiple of 10 will be in the 10 times table. 30 = 10x3 40 = 10x4 Therefore, 30 and 40 are multiples of 10
There is no such number since there are infinitely many multiples in the table for each of an infinite number of tables.
Look at the multiplication table. 5, 10, 15 ...
By making a table of their multiples, and finding the number where they are all the same. The answer is 60.
The lowest common multiple of 5 and 6 is 30, as it is the first number that appears in both the 5 times table (multiples of 5) and the 6 times table (multiples of 6).
Elements are arranged in the increasing order of their atomic number in the periodic table.
165 is the smallest one. Then, all the multiples of 165 also are.
Anything in the 20 times table.
There is no simple pattern or rule for finding primes. The only certain way is to start with 2 and eliminate all multiples of 2. Then move to the next number on the list (3) and eliminate all numbers that are its multiples, and then the next number in the list. Stop after you have done the largest integer in the list which is less than or equal to the maximum number of your range.In this case, sqrt(50) = 7.07 so stop after doing 7 and its multiples.
they are multiples.Because the number 4 has to factor pairs into it because you can multiply (1x4)(2x2).and you can also divide (4 divided by 4 equals 1)AND(4 divided by 2 equals 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.