526,376 views
0 votes
0 votes
Hello again! This is another Calculus question to be explained.

The prompt reads that "If f(x) is a twice-differentiable function such that f(2) = 2 and
(dy)/(dx) =
6√(x^2 + 3y^2), then what is the value of
(d^2y)/(dx^2) at x = 2?"

My initial calculation lead to 12, but then I guessed 219 as the answer and it was correct. Would any kind soul please explain why the answer would be 219? Thank you so much!

User Leaksterrr
by
2.4k points

1 Answer

21 votes
21 votes

Answer:

See explanation.

General Formulas and Concepts:

Pre-Algebra

Order of Operations: BPEMDAS

  1. Brackets
  2. Parenthesis
  3. Exponents
  4. Multiplication
  5. Division
  6. Addition
  7. Subtraction
  • Left to Right

Algebra I

Functions

  • Function Notation
  • Exponential Property [Rewrite]:
    \displaystyle b^(-m) = (1)/(b^m)
  • Exponential Property [Root Rewrite]:
    \displaystyle \sqrt[n]{x} = x^{(1)/(n)}

Calculus

Differentiation

  • Derivatives
  • Derivative Notation

Derivative Property [Multiplied Constant]:
\displaystyle (d)/(dx) [cf(x)] = c \cdot f'(x)

Derivative Property [Addition/Subtraction]:
\displaystyle (d)/(dx)[f(x) + g(x)] = (d)/(dx)[f(x)] + (d)/(dx)[g(x)]

Basic Power Rule:

  1. f(x) = cxⁿ
  2. f’(x) = c·nxⁿ⁻¹

Derivative Rule [Chain Rule]:
\displaystyle (d)/(dx)[f(g(x))] =f'(g(x)) \cdot g'(x)

Explanation:

We are given the following and are trying to find the second derivative at x = 2:


\displaystyle f(2) = 2


\displaystyle (dy)/(dx) = 6√(x^2 + 3y^2)

We can differentiate the 1st derivative to obtain the 2nd derivative. Let's start by rewriting the 1st derivative:


\displaystyle (dy)/(dx) = 6(x^2 + 3y^2)^\big{(1)/(2)}

When we differentiate this, we must follow the Chain Rule:
\displaystyle (d^2y)/(dx^2) = (d)/(dx) \Big[ 6(x^2 + 3y^2)^\big{(1)/(2)} \Big] \cdot (d)/(dx) \Big[ (x^2 + 3y^2) \Big]

Use the Basic Power Rule:


\displaystyle (d^2y)/(dx^2) = 3(x^2 + 3y^2)^\big{(-1)/(2)} (2x + 6yy')

We know that y' is the notation for the 1st derivative. Substitute in the 1st derivative equation:


\displaystyle (d^2y)/(dx^2) = 3(x^2 + 3y^2)^\big{(-1)/(2)} \big[ 2x + 6y(6√(x^2 + 3y^2)) \big]

Simplifying it, we have:


\displaystyle (d^2y)/(dx^2) = 3(x^2 + 3y^2)^\big{(-1)/(2)} \big[ 2x + 36y√(x^2 + 3y^2) \big]

We can rewrite the 2nd derivative using exponential rules:


\displaystyle (d^2y)/(dx^2) = (3\big[ 2x + 36y√(x^2 + 3y^2) \big])/(√(x^2 + 3y^2))

To evaluate the 2nd derivative at x = 2, simply substitute in x = 2 and the value f(2) = 2 into it:


\displaystyle (d^2y)/(dx^2) \bigg| \limits_(x = 2) = (3\big[ 2(2) + 36(2)√(2^2 + 3(2)^2) \big])/(√(2^2 + 3(2)^2))

When we evaluate this using order of operations, we should obtain our answer:


\displaystyle (d^2y)/(dx^2) \bigg| \limits_(x = 2) = 219

Topic: AP Calculus AB/BC (Calculus I/I + II)

Unit: Differentiation

User Aif
by
2.3k points
Welcome to QAmmunity.org, where you can ask questions and receive answers from other members of our community.