Here are the first 33 prime numbers. I don't have time to multiply them. Perhaps you do.
2 3 5 7 11 13 17 19 23 29 31 37 41 43 47 53 59 61 67 71 73 79 83 89 97 101 103 107 109 113 127 131 137
here:
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.
33 = 3 x 11
33 = 3 x 11
As a product of its prime factors expressed in exponents it is: 23*33 = 216
2 x 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.
27 = 3 x 3 x 3 = 33
there are 3 prime numbers in between 21 and 33... they are 23,29, 31.
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.
Prime factorization of 33 = 3 x 11 Prime factorization of 26 = 2 x 13 Nothing is common in the prime factorization of both numbers so LCM is equal to their product. LCM(33, 26) = 858.