Non-primes: one must be odd (1), one even (4 or 6): 2 choices - American Beagle Club

Understanding the Context

Non-primes — also known as composite numbers — are positive integers greater than 1 that are not prime. Composite numbers have more than two distinct positive divisors, meaning they can be divided evenly by numbers other than 1 and themselves. Examples include 4, 6, 8, 9, 10, and so on.

The Key Rule: For Every Composite Number, One Factor Must Be Even

A critical insight in elementary number theory is this: every composite number must include at least one even factor. Why?

• By definition, composite numbers have divisors beyond 1 and themselves.
  
• The smallest possible divisor greater than 1 is always even — specifically, 2.
  
• If a number has only odd factors, it cannot be composite: such a number must be prime (since its only divisors are 1 and itself).
  
• Therefore, to be composite, at least one of its factors must be even — which must be greater than 2 or at least divisible by 2.

Key Insights

This means that non-prime numbers are constructed from a blend of odd and even factors, but at least one factor must be even to ensure composite status.

Why 2 Is the Key Even Prime Factor for Non-Primes

The only even prime is 2. Because of this, all even numbers greater than 2 (like 4, 6, 8, 10) inherently contain 2 as a factor, which opens the door for composite structure. Even composite numbers, such as 4 (2×2), 6 (2×3), or 8 (2×2×2), depend on this even building block to ensure non-primality.

Without the even component (like in the number 9 = 3×3), the number avoids even divisors and remains a prime. Hence, the even number ensures an even divisor, which guarantees composite properties.

The Exceptions: Why 4 and 6 Are the Only Exceptions When Both Factors Are Even?

Final Thoughts

Now, where do 4 and 6 fit into this pattern? Certain composites like 4 and 6 involve two even factors (2 and 2 in 4, 2 and 3 but 6 = 2×3) — but these fall into a nuanced category.

• 4 = 2 × 2 — both factors are even, but the number still qualifies as composite.
  
• 6 = 2 × 3 — one factor even, one odd, which follows the main rule: at least one even factor required.
  
• However, 4 and 6 are exceptions in a symmetry sense — they show how different combinations involving 2 create composites even when both or some factors are even.

These numbers highlight a broader truth: even with multiple even components (like in 4), the fundamental requirement remains: the presence of an even factor guarantees compositeness or prime status based on divisibility.

Visual Guide: Choosing Two Factors Where One Must Be Even

To build or recognize a composite number successfully, follow this logic:

• Pick one factor greater than 1: it must be even, unless the number is 2 (the only even prime).
  
• The other factor can be odd or even — but must be at least 2 (since 1 isn’t ≥2).

For example:
- Try 2 × 4 = 8 → composite (even + even)
- Try 3 × 4 = 12 → composite (odd + even)
- Try 5 × 2 = 10 → composite (odd + even)
- Try 7 × 3 = 21 → prime (both odd — perfect exception)