44
22,2
11,2,2
32 x 29 = 261
There is no factor tree nor factors of 57 as it is a prime number.
In doing the factor tree, you can start with any two factors of the given number. These factors maybe prime or composite. But the resulting factors in the factor tree should always be prime numbers. It means that you have to continue factoring unless you ended up with all prime factors.
Yes. Factors that complete a factor tree need to be prime. However, it doesn't matter what two factors you select to start a factor tree.
Here is a factor tree of 39: 39 3 x 13 Since these are prime numbers, the factor tree is finished. The prime factors of 39 are 3 and 13.
As a product of its prime factors: 7*7*13 = 637
the prime factor of 5
32 x 29 = 261
3 is a prime number. Prime numbers don't have factor trees. The factors of 3 are 1 and 3.
There is no factor tree nor factors of 57 as it is a prime number.
As a product of its prime factors: 2*2*2*3*5 = 120
The purpose of a factor tree is to divide a number into prime factors. 1 is not a prime number.
In doing the factor tree, you can start with any two factors of the given number. These factors maybe prime or composite. But the resulting factors in the factor tree should always be prime numbers. It means that you have to continue factoring unless you ended up with all prime factors.
prime factors
A factor tree shows the prime factors of the working number and can also be used as a visual demonstration to show the prime factors of the working number.
When the bottom branch consists entirely of prime numbers.
Yes. Factors that complete a factor tree need to be prime. However, it doesn't matter what two factors you select to start a factor tree.