97 & 3
-2
1 x 365 2 x 182.5 3 x 121.666667 4 x 91.25 5 x 73 6 x 60.833333 7 x 52.142857 8 x 45.625 9 x 40.555556 10 x 36.5 11 x 33.181818 12 x 30.416667 13 x 28.076923 14 x 26.071429 15 x 24.333333 16 x 22.81125 17 x 21.470588 18 x 20.277778 19 x 19.210526 19.1049732 x 19.1049732
This can be an extension to the proof that there are infinitely many prime numbers. If there are infinitely many prime numbers, then there are also infinitely many PRODUCTS of prime numbers. Those numbers that are the product of 2 or more prime numbers are not prime numbers.
As a product of its prime factors: 2*2*5*5 = 100
No two prime numbers can make 30.No two prime numbers can make 30.No two prime numbers can make 30.No two prime numbers can make 30.
The least common multiple (lcm) of two or more numbers is the product of all prime factors of the numbers to their highest powers.The prime factors of 686 are 2 and 73The prime factors of 365 are 5 and 73.The least common multiple of 686 and 365 is 250390 (2 x 5 x 73 x 73).
367
The prime factors are: 2, 5
223 and 2.
2 an 96
The prime factorization of 16 is: 2 x 8 2 x 2 x 4 2 x 2 x 2 x 2. There is not a pair of prime numbers that make 16.
8x19
3 and 23 are two prime numbers having a sum of 26.
The prime numbers 2 and 3 have 6 as their product when multiplied.
There is a difference of 95 when the prime number 2 is subtracted from the prime number 97.
How about the prime numbers of: 3+7 = 10