Understanding $ q(x) = p(x+1) $: Definition, Expansion, and Finding the Coefficient of $ x^2 $

If you’ve encountered a function defined as $ q(x) = p(x+1) $, you’re exploring a fundamental concept in polynomial algebra known as shifting or translation. This transformation shifts the graph of the original polynomial $ p(x) $ horizontally and plays a crucial role in many areas of mathematics, including calculus, differential equations, and approximation theory.

What is $ q(x) = p(x+1) $?

Understanding the Context

The expression $ q(x) = p(x+1) $ defines a new function $ q $ in terms of the original polynomial $ p $, shifted one unit to the left. To understand this, consider shifting the graph of $ p $ by 1 unit left: each input $ x $ of $ q $ corresponds to $ x+1 $ in $ p $. This transformation does not alter the degree of $ p $ — if $ p $ is a degree-2 polynomial, $ q $ remains degree 2 — but it changes the coefficients through what’s known as polynomial substitution.

Expanding $ q(x) = p(x+1) $: General Approach

Let’s assume $ p(x) $ is a general quadratic polynomial:

$$
p(x) = ax^2 + bx + c
$$

Solved (1 point) Define | Chegg.com

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Solved (1 point) Define | Chegg.com
Solved 19. Let p, = 1+x², p, = 1 +x+ x², and q. = 2x. q, = 1 | Chegg.com
Solved Suppose that the functions p and q are defined as | Chegg.com
Solved (c) In the expansion of (p + qx)5, the coefficient of | Chegg.com
Solved f(x)=q(x)p(x)=(x−2)⋅q1(x)(x−2)⋅p1(x)=q1(x)p1(x) where | Chegg.com

Key Insights

Now compute $ q(x) = p(x+1) $ by substituting $ x+1 $ into $ p $:

$$
q(x) = p(x+1) = a(x+1)^2 + b(x+1) + c
$$

Expand each term:

  • $ a(x+1)^2 = a(x^2 + 2x + 1) = ax^2 + 2ax + a $
  • $ b(x+1) = bx + b $
  • Constant $ c $

Now combine all terms:

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Final Thoughts

$$
q(x) = ax^2 + 2ax + a + bx + b + c = ax^2 + (2a + b)x + (a + b + c)
$$

Coefficient of $ x^2 $ in $ q(x) $

From the expansion:

  • The coefficient of $ x^2 $ is $ a $, which is the same as the coefficient of $ x^2 $ in $ p(x) $.

This confirms a key fact: when shifting a polynomial $ p(x) $ by replacing $ x $ with $ x+1 $, the leading coefficient (i.e., the $ x^2 $ term) remains unchanged.

Why This Matters

  • Polynomial Transformations: This shift is widely used to simplify functions, move roots, or analyze local behavior.
  • Derivative Political Sensitivity: Shifting doesn’t affect the derivative’s form — since $ q'(x) = p'(x+1) $, the derivative is just a shifted version.
  • Computational Efficiency: In symbolic algebra systems, computing $ p(x+1) $ avoids full expansion but follows predictable coefficient rules.

Summary