3136 = 26*72
24 can be expressed as a product of primes as 2^3 * 3^1.
The number 33 can be expressed as a product of primes by factoring it into its prime components. It can be broken down into 3 and 11, both of which are prime numbers. Therefore, the prime factorization of 33 is (3 \times 11).
95 is the product of two primes, 5 and 19.
1361
98=2x7x7
That's known as a prime factorization.
24 can be expressed as a product of primes as 2^3 * 3^1.
50 = 2*5*5
10 000 is 100x100, 100 is 10x10, and 10 is 5x2. So, 10 00 expressed as a product of primes is ((5x2)2)2.
The number 33 can be expressed as a product of primes by factoring it into its prime components. It can be broken down into 3 and 11, both of which are prime numbers. Therefore, the prime factorization of 33 is (3 \times 11).
There are no two primes whose product is 50.There are no two primes whose product is 50.There are no two primes whose product is 50.There are no two primes whose product is 50.
Hi... Every integer can be expressed as the product of prime numbers (and these primes are it's factors). Since we can multiply any integer by 2 to create a larger integer which can also be expressed as the product of primes, and this number has more prime factors than the last, we can always get a bigger number with more prime factors. Therefore, there is no definable number with the most primes (much like there is no largest number)!
The products of the primes are the composites.
1450 as a product of primes = 2 * 5 * 5 * 29
20 as a product of primes = 2 * 2 * 5
1150. because product of 3 x 5 x 7 x 11=1150, which is the least 4 digit number which can be expressed as product of primes.
95 is the product of two primes, 5 and 19.