The only integer with both those as multiples is 1.
The only integer with both those as multiples is 1.
The only integer with both those as multiples is 1.
The only integer with both those as multiples is 1.
There is no number that is greater than 50 AND less than 10 as 10 is less than 50!
However, a number greater than 10 and less than 50 which fits the bill is 11 - it only has 2 factors 1 & 11 (it is prime) and has multiples 6x11 (=66) and 55x11 (=605).
If the question was greater than 50 and less than 100 then the number could only be 66 as 66 is the only number greater than 50 which has 66 as a multiple, but 66 has 8 factors (1, 2, 3, 6, 11, 22, 33, 66), meaning there is no number in that range.
The only integer with both those as multiples is 1.
Your mystery number is 11.
11
Any square of a prime number. For example, 5*5 = 25 has the factors 1, 5, 25. If you square any other prime number, call it "p", the factors of the result are 1, p, p square.
Square numbers have an odd number of factors.
A perfect square has an odd number of factors.
Odd. I determined my answer by looking at the number of factors of a square number.
It would help to have a few specific examples as I am not sure how much depth you want to go into. To find all of the factors of a big number, I find the square root of that number and round down. Then all factors must be equal to or lower than that square root. eg To find the factors of 1200, the square root is 34.6. Round down to 34. Any factors of 1200 must be 34 or less. Then I just try starting from 2 (1 is always a factor), I try to divide by all of the numbers up to 34. Some will not work. So factors of 1200 are 1, 2, 3, 4, 5, 6, 8, 10, 12, 15, 16, 20, 24, 25, 30. To find multiples, use multiplication tables. e.g. multiples of 7 are 7, 14, 21, 28 etc. If you want Lowest Common Multiples, and Greatest Common Factor, then that involves different process.
66 and 605 are both multiples of 11.
it is an even number it is composite number it is a square number it is a number between 10 and 100 it has factors and multiples and it has a prime factorization.................................
Any square of a prime number. For example, 5*5 = 25 has the factors 1, 5, 25. If you square any other prime number, call it "p", the factors of the result are 1, p, p square.
It is the square of any one of the four multiples of 6 between 10 and 31.
Square numbers have an odd number of factors.
The answer to the division is a number (8) that can be added to itself to make 16. The answer to the square root is a number (-4 or +4) that can be multiplied by itself to make 16.
This number would have to be a squared number as it only has 15 factors. The number I have calculated is 324 as the square root is 18
The next square number after ten (which is not a square number) is 16. Sixteen has five factors.
All square numbers have an odd number of factors.
A square number will have one factor pair that consists of the same number (the square root). In the list of factors, that number will be written once.
No, only square numbers have an odd number of factors.
Square numbers have an odd number of factors.