Understanding the Context

Before diving into the numbers, let’s understand why LCM is important. The LCM of two or more numbers is the smallest positive number that is evenly divisible by each of the numbers. This concept helps in solving real-life problems such as aligning repeating schedules (e.g., buses arriving every 12 and 18 minutes), dividing objects fairly, or simplifying complex arithmetic.

Step 1: Prime Factorization of 12 and 18

To find the LCM, we begin by breaking each number into its prime factors. Prime factorization breaks a number down into a product of prime numbers — the building blocks of mathematics.

Prime Factorization of 12

We divide 12 by the smallest prime numbers:

Key Insights

• 12 ÷ 2 = 6
  
• 6 ÷ 2 = 3
  
• 3 is already a prime number

So, the prime factorization of 12 is:
12 = 2² × 3¹

Prime Factorization of 18

Next, factor 18:

• 18 ÷ 2 = 9
  
• 9 ÷ 3 = 3
  
• 3 is a prime number

Thus, the prime factorization of 18 is:
18 = 2¹ × 3²

Final Thoughts

Why Prime Factorization Works

Prime factorization reveals the unique prime components of each number. By listing the highest power of each prime that appears in either factorization, we ensure the result is divisible by both numbers — and the smallest possible.

Step 2: Calculate the LCM Using Prime Factorizations

Now that we have:

• 12 = 2² × 3¹
  
• 18 = 2¹ × 3²

To find the LCM, take the highest power of each prime factor present:

• For prime 2, the highest power is ² (from 12)
  
• For prime 3, the highest power is ³ (from 18)

Multiply these together:
LCM(12, 18) = 2² × 3³ = 4 × 27 = 108