(k+4)^2=k^2+4^2

3 min read Jun 16, 2024
(k+4)^2=k^2+4^2

The Misconception: Why (k+4)^2 ≠ k^2 + 4^2

It's a common mistake to assume that squaring a sum is the same as squaring each term individually. However, (k+4)^2 is not equal to k^2 + 4^2. Let's explore why this is the case and how to correctly expand the expression.

Understanding the Difference

The expression (k+4)^2 represents squaring the entire binomial (k+4). This means multiplying the entire expression by itself:

(k+4)^2 = (k+4)(k+4)

To correctly expand this expression, we need to apply the distributive property:

  • Multiply k by each term inside the second set of parentheses: kk + k4
  • Multiply 4 by each term inside the second set of parentheses: 4k + 44

This gives us:

k^2 + 4k + 4k + 16

Combining like terms, we get the final result:

(k+4)^2 = k^2 + 8k + 16

Why the Misconception Occurs

The misconception likely arises from the assumption that squaring a sum follows the same rules as multiplication with a single variable:

  • For example, 2(a+b) = 2a + 2b*

However, squaring involves multiplying a quantity by itself, which introduces additional terms.

The Importance of Expanding Correctly

Understanding how to correctly expand expressions like (k+4)^2 is crucial for solving algebraic equations, simplifying expressions, and working with quadratic functions. Using the incorrect formula can lead to inaccurate solutions and flawed conclusions.

Remember, always apply the distributive property and combine like terms when expanding expressions involving squared binomials.

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