39 = 3 * 13
because they divide into 6 evenly - no remainder
There is no factorisation since 3 is, itself, a prime.There is no factorisation since 3 is, itself, a prime.There is no factorisation since 3 is, itself, a prime.There is no factorisation since 3 is, itself, a prime.
Nobody "created" prime factorisation. But Euclid proved the unique prime factorisation theorem.
The factors are: 1, 3, 13, 19, 39, 57, 247, 741 The prime factorisation is 3 x 13 x 19
The prime factorisation (not fractional!) of 189 is:189 = 3*3*3*7The prime factorisation (not fractional!) of 189 is:189 = 3*3*3*7The prime factorisation (not fractional!) of 189 is:189 = 3*3*3*7The prime factorisation (not fractional!) of 189 is:189 = 3*3*3*7
89 is already prime.
In the prime factorisation of the number, each factor must appear an even number of times.In the prime factorisation of the number, each factor must appear an even number of times.In the prime factorisation of the number, each factor must appear an even number of times.In the prime factorisation of the number, each factor must appear an even number of times.
233357 is a prime and so 233357 there is no prime factorisation.
It is the prime factorisation of the number.
Prime factorisation.
It is the unique prime factorisation theorem.
The prime factors of 30 are 2, 3, and 5. The prime factor of 31 is 31. The prime factors of 32 are 2, 2, 2, 2, and 2. The prime factors of 33 are 3 and 11. The prime factors of 34 are 2 and 17. The prime factors of 35 are 5 and 7. The prime factors of 36 are 2, 2, 3, and 3. The prime factor of 37 is 37. The prime factors of 38 are 2 and 19. So, the number must be 30, which is 2 x 3 x 5.