Learn on PengiPengi Math (Grade 6)Chapter 2: Factors, Multiples, and Number Structure

Lesson 2: Prime Factorization and Special Factors

In this Grade 6 Pengi Math lesson from Chapter 2, students learn to define and classify numbers as prime or composite, then break composite numbers down into their prime factors using factor trees. Students also practice writing prime factorizations in exponential form, building a foundation for understanding number structure.

Section 1

Procedure: Find Prime Factorization with a Factor Tree

Property

To find the prime factorization of a composite number using the tree method:
Step 1. Find any factor pair of the given number, and use these numbers to create two branches.
Step 2. If a factor is prime, that branch is complete. Circle the prime.
Step 3. If a factor is not prime, write it as the product of a factor pair and continue the process.
Step 4. Write the composite number as the product of all the circled primes.

Examples

  • To factor 36, start with 666 \cdot 6. Break the first 6 into 232 \cdot 3 and circle both primes. Break the second 6 into 232 \cdot 3 and circle both primes. The factorization is 22322^2 \cdot 3^2, or 22332 \cdot 2 \cdot 3 \cdot 3.
  • For 28, branch into 474 \cdot 7. Circle the prime 7. Branch 4 into 222 \cdot 2 and circle both 2s. The result is 2272^2 \cdot 7, or 2272 \cdot 2 \cdot 7.
  • To factor 60, you can start with 6106 \cdot 10. Branch 6 into 232 \cdot 3 and 10 into 252 \cdot 5. All are prime, so the factorization is 22352^2 \cdot 3 \cdot 5, or 22352 \cdot 2 \cdot 3 \cdot 5.

Explanation

This visual method lets you branch out from a number, splitting it into pairs of factors. You keep branching until every path ends in a prime number, which you circle like a bud on the tree.

Section 2

Application: Find the Greatest Perfect Square Factor

Property

When finding the prime factorization of a number, we can identify perfect square factors by looking for prime factors that appear an even number of times.
A perfect square factor is formed by taking pairs of identical prime factors.

Examples

Lesson overview

Expand to review the lesson summary and core properties.

Expand

Section 1

Procedure: Find Prime Factorization with a Factor Tree

Property

To find the prime factorization of a composite number using the tree method:
Step 1. Find any factor pair of the given number, and use these numbers to create two branches.
Step 2. If a factor is prime, that branch is complete. Circle the prime.
Step 3. If a factor is not prime, write it as the product of a factor pair and continue the process.
Step 4. Write the composite number as the product of all the circled primes.

Examples

  • To factor 36, start with 666 \cdot 6. Break the first 6 into 232 \cdot 3 and circle both primes. Break the second 6 into 232 \cdot 3 and circle both primes. The factorization is 22322^2 \cdot 3^2, or 22332 \cdot 2 \cdot 3 \cdot 3.
  • For 28, branch into 474 \cdot 7. Circle the prime 7. Branch 4 into 222 \cdot 2 and circle both 2s. The result is 2272^2 \cdot 7, or 2272 \cdot 2 \cdot 7.
  • To factor 60, you can start with 6106 \cdot 10. Branch 6 into 232 \cdot 3 and 10 into 252 \cdot 5. All are prime, so the factorization is 22352^2 \cdot 3 \cdot 5, or 22352 \cdot 2 \cdot 3 \cdot 5.

Explanation

This visual method lets you branch out from a number, splitting it into pairs of factors. You keep branching until every path ends in a prime number, which you circle like a bud on the tree.

Section 2

Application: Find the Greatest Perfect Square Factor

Property

When finding the prime factorization of a number, we can identify perfect square factors by looking for prime factors that appear an even number of times.
A perfect square factor is formed by taking pairs of identical prime factors.

Examples