As long as you split down 216 into prime numbers, the factor tree is correct. Here is just one example out of many:
216
3 72
9 8
3 3 4 2
2 2
From this tree, you can deduce that the product of primes that make up 216 is 23 x 33.
IT IS PRIME there is no factor tree
13 is prime. No tree.
There is no factor tree nor factors of 57 as it is a prime number.
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.
34001700,2850,2,2425,2,2,285,5,2,2,217,5,5,2,2,2
Use a factor tree. 216 108,2 54,2,2 27,2,2,2 9,3,2,2,2 3,3,3,2,2,2
factor tree of 216
216 has two prime factors: 2 and 3.
The prime factors of 216 are 2 and 3.
83 is prime. No tree.
2 and 3
IT IS PRIME there is no factor tree
The purpose of a factor tree is to notate the process of finding the prime factorization. If a number is already prime, a factor tree is not necessary.
Prime Factor Tree: ........452 ........./ \ .......4 113 ....../ \ ....2...2
The prime factor tree of 280 is:140,270,2,235,2,2,27,5,2,2,2
factor trees and prime factor trees are the same thing with different names.
199 is a prime number. It does not have a tree since it only has one prime factor, itself.