33 = 3 x 11
As a product of its prime factors expressed in exponents it is: 23*33 = 216
There are no prime numbers between 33 and 36.
there are 3 prime numbers in between 21 and 33... they are 23,29, 31.
The prime numbers for 99 are 11 and 33.
Prime factorization is the finding which prime number multiply to get to make the original number. 66: 1, 2, 3, 6, 11, 22, 33, 66 Prime Numbers: 2, 3, 11 Prime Factorization: 2 x 3 x 11
33 = 3 x 11
2 x 33 x 52
As a product of its prime factors expressed in exponents it is: 23*33 = 216
675 = 3 x 3 x 3 x 5 x 5 or 33 x 52
No prime numbers can be equal to 33, as 33 is not a prime number. It is divisible by 3. Prime numbers are only divisible by 1 and themselves, and 33 does not meet this criterion.
Not all the time, 11 x 3 = 33
23 x 33 = 216
There are no prime numbers between 33 and 36.
To find the HCF of 3 numbers you first need to write them as the product of their prime factors. In this case you get: 11 = 11 33 = 3x11 121 = 11x11 The next step is to identify any common prime factors. In this case, all three numbers have an 11 as a prime factor. Therefore, the HCF of 11, 33 and 121 is 11.
27 = 3 x 3 x 3 = 33
there are 3 prime numbers in between 21 and 33... they are 23,29, 31.
Any two prime numbers, eg 3 and 17 also any two co-prime numbers eg 26 and 33