1,4,9,25,36
describe the pattern the square numbers make on the multiplication table
Since there is only one square of 12 (= 144) there is not much of a pattern.
Rational numbers are closed under multiplication, because if you multiply any rational number you will get a pattern. Rational numbers also have a pattern or terminatge, which is good to keep in mind.
The squares make a diagonal line.123456789101112112345678910111222468101214161820222433691215182124273033364481216202428323640444855101520253035404550556066121824303642485460667277142128354249566370778488162432404856647280889699182736455463728190991081010203040506070809010011012011112233445566778899110121132121224364860728496108120132144
data pattern
you can use numbers by saying 5 circles than 9 squares and 7 pentagon's that will go on and on
In the interval [1, 40]: 1*1 = 1 2*2 = 4 3*3 = 9 4*4 = 16 5*5 = 25 and 6*6 = 36
The last digit in the product of the first 20 odd natural numbers can be determined by looking at the pattern of the units digit in the multiplication of consecutive odd numbers. The units digit of the product of consecutive odd numbers alternates between 1 and 5. Since there are 10 odd numbers between 1 and 19, and 20 is also an odd number, the last digit in the product of the first 20 odd natural numbers is 5.
The pattern between the numbers is: 11, 12 and 13
Hopefully, one of the rules is to put spaces between the numbers so we can discern a pattern.
Check the differences between consecutive numbers.
To solve 239 by 47 using Napier's Bones, you would set up a grid of sticks with numbers arranged in a specific pattern. Then, by following a set of multiplication and addition steps using the numbers on the sticks, you can calculate the answer. This method allows for quick multiplication by breaking down the process into simpler steps.