The prime numbers 2 and 3 have 6 as their product when multiplied.
30 cannot be written as the product of 6 prime numbers. 30 has three prime factors: 2 x 3 x 5 = 30
There are only two prime numbers that are consecutive numbers, 2 and 3. Their product is 2 x 3 = 6. The first prime numbers are 2, 3, 5, and 7 and the only two consecutive prime numbers whose product is a single digit are 2 and 3. (The next two consecutive prime numbers, 3 and 5, have a two-digit product.)
No, the product of two prime numbers is unique.
80 as a product of prime numbers can be expressed as: 2x2x2x2x5
The product of two prime numbers will be composite.
The product is exactly 376 since that is what the prime numbers for 376 are!The product is exactly 376 since that is what the prime numbers for 376 are!The product is exactly 376 since that is what the prime numbers for 376 are!The product is exactly 376 since that is what the prime numbers for 376 are!
It is impossible for the product of two prime numbers to be prime. It is impossible for the sum of two prime numbers to be prime as long as one of the numbers isn't 2.
A number that is not a prime number is called a composite number because it can be made by multiplying prime numbers together. For example, 6 is a composite number that is the product of multiplying the prime numbers 2 and 3 together.
A composite number is the product of two or more prime numbers.
The product of two prime numbers is always a composite number, and it never is a prime number.
The multiplication answer of the prime numbers, so if you multiply them, the answer is called the product
30 is the product of three different prime numbers.
The product of the fourth and sixth prime numbers is 91.
Can't be done, it only takes five.
The LCM of a set of prime numbers is their product.
The two smallest prime numbers are 2 & 3. Their product is thus, 2 x 3 = 6.
The product of any two numbers, neither of which is 1, is never a prime number.
prime number-a number that can only be divided by 1 or itself without resulting in a remainder therefore if the product (multiplying) of 2 prime numbers could be divided by either of the prime numbers, 1, and itself. example 2X3=6 6/1=6 6/6=1 6/3=2 6/2=3
Yes, 64 can be a product of prime numbers. All integers are either prime numbers or a product of prime numbers (called the prime factorization of a number). The prime factorization of 64 is 2 x 2 x 2 x 2 x 2 x 2.
No. By definition, the product has a proper factor - the prime.
If the prime factorizations have no numbers in common, the LCM is their product.
Neither 90 nor 500 are prime numbers.
Because prime numbers don't have any common prime factors. Their GCF is 1. Since the product of the GCF and LCM of a pair of numbers equals the product of the numbers, the LCM has to be equal to the product.