It is: 2*3*3*3 = 54
A factor tree will show you the prime factorization of 88. Comparing that prime factorization of 88 and another number will you show you the GCF between the two. You need at least two numbers to find a GCF.
How to Do Prime FactorizationHere is one way to do prime factorization:We'll find the prime factorization of 98.Though you can start with any of the factors which when multiplied together equal 98, let's start with the lowest prime factor, which is 2.2 X 49 = 98 Now, find the lowest prime factor of 49, which is 7. 7 X 7 = 49.Write it like this:2 X 7 X 7 = 98, which is the prime factorization because all the factors are prime.Here is another example:We'll do the number 100:2 X 50 = 1002 X 2 X 25 (We just factored the number 50, using the lowest prime number that will divide evenly into 50) Now, we'll factor 25. 5 X 5 = 25. Write it like this:2 X 2 X 5 X 5All the factors are prime now, so the prime factorization of 100 is 2 X 2 X 5 X 5.So, basically, prime factorization is simply finding the prime factors (those which have only 1 and itself as factors) that when multiplied together equal the given number. The above examples show one way to accomplish that.
If you look at the related question, "What are the prime factors of the numbers from 1 to 200?" (provided in the link below), take the prime numbers, and show them with multiplication signs between them, then you will have the prime factorization. Examples: The prime factors of 15 are 3 and 5. Therefore, the prime factorization is 3 x 5. The prime factors of 42 are 2, 3, and 7. Therefore, the prime factorization is 2 x 3 x 7. The prime factors of 64 are 2, 2, 2, 2, 2, and 2. Therefore, the prime factorization is 2 x 2 x 2 x 2 x 2 x 2. If you want the prime factorization of a specific number, it is sometimes listed under questions of the form, "What are the prime factors of __?" or "What are the factors of __?" or "What are the factors and prime factors of __?"
61 and 73 are prime numbers. Prime numbers don't have prime factorizations, since their only prime factors are themselves. Since these would have to be different numbers, they don't have any prime factors in common. The GCF of any set of prime numbers is 1.
96 is a composite number because it has more than two factors. 96 is divisible by 2, 4, 1, 96 etc. which clearly shows that it has more than two factors.In order to show that a number is composite there is no need to find its all factors, we have to show only that it has more than two 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.
The factors of 12 are: 1,2,3,4,6. The prime factors are the prime numbers in the factors. So: 1,2,3 are the prime factors of 12.
103 is prime, so it's only factors are 1,103
The distinct prime factors of 924 are 2, 3, 7 and 11. You might include a 2 in parentheses after the two to show that the two happens twice in the prime factorization.
where is it
The factor tree for 90 is as follows.90/\9•10/\ /\3•3 5•2So 90 as a product of its prime factors is: 2 • 3 • 3 • 5.
Factor them. 2 x 7 x 7 x 11 = 1078 3 x 5 x 13 x 17 = 3315 No common prime factors. They are relatively prime.
The prime factors of 88 are 2 and 11
All composite numbers can be expressed as unique products of prime numbers. This is accomplished by dividing the original number and its factors by prime numbers until all the factors are prime. A factor tree can help you visualize this. Example: 210 210 Divide by two. 105,2 Divide by three. 35,3,2 Divide by five. 7,5,3,2 Stop. All the factors are prime. 2 x 3 x 5 x 7 = 210 That's the prime factorization of 210.
A factor rainbow will show all of the factors. A factor pair is just 2 numbers that are factors of the number you want to find.
by using a prime factor tree
43 is a prime number whose only factors are itself and one