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Find all the values of k so that the quadratic expression factors into two binomials. Explain the process used to find the values.

3x^2 + kx - 8

User Gbudan
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2 Answers

21 votes
21 votes

Answer:

(-∞, ∞) or
k \in \mathbb{R}

Explanation:

Binomial: two terms connected by a plus or minus sign.

Discriminant


b^2-4ac\quad\textsf{when}\:ax^2+bx+c=0


\textsf{when }\:b^2-4ac > 0 \implies \textsf{two real roots}


\textsf{when }\:b^2-4ac=0 \implies \textsf{one real root}


\textsf{when }\:b^2-4ac < 0 \implies \textsf{no real roots}

If a quadratic expression factors into two binomials, it will have two real roots. Therefore, the discriminant will be greater than zero.

Given quadratic expression:


3x^2+kx-8


\implies a=3, \quad b=k, \quad c=-8

Substitute the values of a, b and c into the discriminant, set it to > 0:


\implies k^2-4(3)(-8) > 0


\implies k^2+96 > 0

As k² ≥ 0 for all real numbers,


\implies k^2+96 \geq 96

Therefore, the values of k are (-∞, ∞) or
k \in \mathbb{R}

User David Deutsch
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2.7k points
16 votes
16 votes

Answer:

  • Any value of k

Explanation:

The quadratic expression can be factored into two binomials if it has two real roots.

Two real roots possible with non-negative discriminant:

  • D ≥ 0

As D = b² - 4ac, we get the following inequality

  • k² - 4(3)(-8) ≥ 0
  • k² + 96 ≥ 0
  • k² ≥ - 96

This is true for any value of k

  • k ∈ (- ∞, + ∞)
User EduAlm
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2.7k points