Textbook Question
In Exercises 83–88, find equations for the lines that are tangent, and the lines that are normal, to the curve at the given point.
xy + 2x - 5y = 2, (3, 2)
4. Applications of Derivatives
Implicit Differentiation
4:27 minutesProblem 3.51
Textbook Question
In Exercises 51 and 52, find dp/dq.
p³ + 4pq - 3q² = 2
Verified step by step guidance1
Step 1: Identify the equation given in the problem: p³ + 4pq - 3q² = 2. We need to find the derivative dp/dq.
Step 2: Apply implicit differentiation to both sides of the equation with respect to q. Remember that p is a function of q, so when differentiating terms involving p, use the chain rule.
Step 3: Differentiate each term separately. For p³, use the chain rule: the derivative is 3p²(dp/dq). For 4pq, apply the product rule: differentiate 4p with respect to q to get 4(dp/dq) and differentiate q to get 4p. For -3q², the derivative is -6q.
Step 4: Set the derivative of the right side of the equation, which is a constant (2), to zero since the derivative of a constant is zero.
Step 5: Combine all the differentiated terms from Step 3 and solve for dp/dq. This will involve isolating dp/dq on one side of the equation.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Implicit Differentiation
Implicit differentiation is a technique used to differentiate equations where the dependent and independent variables are not explicitly separated. In this case, we differentiate both sides of the equation with respect to one variable while treating the other variable as a function of the first. This allows us to find the derivative of one variable in terms of the other, which is essential for solving for dp/dq.
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Chain Rule
The chain rule is a fundamental principle in calculus that allows us to differentiate composite functions. When applying implicit differentiation, we often encounter terms where one variable is a function of another. The chain rule helps us correctly differentiate these terms by multiplying the derivative of the outer function by the derivative of the inner function, ensuring accurate results in finding dp/dq.
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Partial Derivatives
Partial derivatives are used when dealing with functions of multiple variables, allowing us to differentiate with respect to one variable while holding the others constant. In the context of the given equation, we may need to compute partial derivatives of p and q to isolate dp/dq. Understanding how to apply partial derivatives is crucial for analyzing relationships between variables in multivariable calculus.
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