Factors: 1 and 97 Multiples: 97, 194, 291 and so on.
97 is a prime number. The only two factors of a prime number are 1 and itself.The two factors of 97 are 1 and 97. There are only two factors of a prime number.The only factor pair of 97 is 1 x 97. There is only one factor pair of a prime number.The proper factors of 97 are only 1 or,if the definition you are using excludes 1, there are none.The only prime factor of 97 is 97. There is only one prime factor of a prime number - itself.The distinct prime factor (listing each prime factor only once) of 97 is also 97.The prime factorization of 97 is 97. In some cases, to emphasize that it is prime, you might write the prime factorization as 1 x 97.NOTE: There cannot be common factors, a greatest common factor, or a least common multiple because "common" refers to factors or multiples that two or more numbers have in common.
They are all multiples.
All multiples of 8 are also multiples of 2, but not all multiples of 2 are multiples of 8.
97
Factors: 1 and 97 Multiples: 97, 194, 291 and so on.
1 and 97
97 is only divisible by itself and one because it is a prime number
The answer depends on what "you" is. If you = 97 then there there are more multiples of 7.
60, 90.
Any of its multiples
Given: All Prime numbers are odd, If a number is even it is not prime, If a number is odd and it can be divided by something other than itself or 1 it is not prime. 1.) One way to test an odd number and determine whether it is prime is to start with the number 3 and try dividing it perfectly into the odd number: For example, 27 is odd, but it can be divided by the number 3 which divides perfectly into 27 nine times. 3 x 9 = 27. So 27 is not prime. If 3 doesn't divide perfectly into the number then keep adding 2 to the factor and try dividing the number by the new factor: For example, 91 is odd, but 3 does not perfectly divide 91, so we add 2 to 3 and try dividing 91 by 5 which we know immediately will not work since 91 does not end in 0 or 5, so we add 2 more and try dividing 91 by 7. We find that 7 divides perfectly into 91 thirteen times. 7 x 13 = 91, so 91 is not prime. If you know your times tables it makes this determination easier since we can also eliminate all multiples of each number that doesn't divide perfectly into the test number. For example, since 2 doesn't divide perfectly into a prime number then all multiples of 2 (all even numbers) are not eligible as potentially divisors. If 3 doesn't divide perfectly then all multiples of 3 do not have to be tested (i.e., 9, 15, 21, 27, 33...) Last example using the above tests: Is 97 prime? Given: When I use the word "divided" I mean perfectly divided Is 97 even? No, so all multiples of 2 are eliminated from testing Can 97 be divided by 3? No, so all multiples of 3 are eliminated from testing Can 97 be divided by 5? No, so all multiples of 5 are eliminated from testing Can 97 be divided by 7? No, so all multiples of 7 are eliminated from testing Can 97 be divided by 11? No, so all multiples of 11 are eliminated from testing Can 97 be divided by 13? No, so all multiples of 13 are eliminated from testing Can 97 be divided by 17? No, so all multiples of 17 are eliminated from testing Can 97 be divided by 19? No, so all multiples of 19 are eliminated from testing Can 97 be divided by 23? No, so all multiples of 23 are eliminated from testing Can 97 be divided by 29? No, so all multiples of 29 are eliminated from testing Can 97 be divided by 31? No, so all multiples of 31 are eliminated from testing We can safely say that 97 is prime at this point. Why? Because the next number to test is 37 and since 37 x 3 is 111 and we cannot divide 97 by 3 then no larger number will work. All factors have been effectively tested, albeit the slow way, but it works 100% of the time to determine primeness. Larger numbers may cause this method to be too time consuming; a formula used with a calculator would best be implemented to calculate primeness with larger numbers. You could also print out a prime number table as a reference.
The total number is infinite. The first 10 are: 97, 194, 291, 388, 485, 582, 679, 776, 873, 970 . . .
LCM(1, 2, 3, ... , 100) = 26*34*52*72*11*13*17*19*23*29*31*37*41*43*47*53*59*61*67*71*73*79*83*89*97 = 7284218307581900599279651679808748132800. All common multiples are multiples of this number.
97 is a prime number. The only two factors of a prime number are 1 and itself.The two factors of 97 are 1 and 97. There are only two factors of a prime number.The only factor pair of 97 is 1 x 97. There is only one factor pair of a prime number.The proper factors of 97 are only 1 or,if the definition you are using excludes 1, there are none.The only prime factor of 97 is 97. There is only one prime factor of a prime number - itself.The distinct prime factor (listing each prime factor only once) of 97 is also 97.The prime factorization of 97 is 97. In some cases, to emphasize that it is prime, you might write the prime factorization as 1 x 97.NOTE: There cannot be common factors, a greatest common factor, or a least common multiple because "common" refers to factors or multiples that two or more numbers have in common.
They are all multiples.
They are all the multiples of 16.They are all the multiples of 16.They are all the multiples of 16.They are all the multiples of 16.