key term - Product Rule

5 Must Know Facts For Your Next Test

1. The product rule is used to differentiate the product of two or more functions, and it is a fundamental tool in calculus.
2. The product rule is particularly useful when dealing with functions that are the product of two or more simpler functions.
3. The product rule can be extended to differentiate the product of more than two functions, by repeatedly applying the rule.
4. The product rule is often used in conjunction with other differentiation rules, such as the chain rule and the power rule, to solve more complex differentiation problems.
5. The product rule is an important concept in the study of integer exponents and scientific notation, as it can be used to differentiate expressions involving exponents and powers.

Review Questions

• Explain how the product rule can be used to differentiate a function that is the product of two simpler functions.
  • The product rule states that if $f(x)$ and $g(x)$ are two functions, then the derivative of their product, $f(x)g(x)$, is equal to $f'(x)g(x) + f(x)g'(x)$. This means that the derivative of the product of two functions is the product of the derivative of the first function and the second function, plus the product of the first function and the derivative of the second function. This rule allows us to differentiate more complex functions that are the product of simpler functions.
• Describe how the product rule can be used in the context of integer exponents and scientific notation.
  • In the context of integer exponents and scientific notation, the product rule can be used to differentiate expressions involving powers and exponents. For example, if we have a function $f(x) = x^m ullet x^n$, where $m$ and $n$ are integers, we can use the product rule to find the derivative: $f'(x) = mx^{m-1} ullet x^n + x^m ullet nx^{n-1}$. This allows us to differentiate more complex expressions involving integer exponents and scientific notation, which is an important skill in pre-algebra and beyond.
• Analyze how the product rule can be used in conjunction with other differentiation rules, such as the chain rule and the power rule, to solve more advanced differentiation problems.
  • The product rule can be used in combination with other differentiation rules, such as the chain rule and the power rule, to solve more complex differentiation problems. For instance, if we have a function $f(x) = (x^2 + 1)^3 ullet ext{sin}(x)$, we can first use the chain rule to differentiate the inner function $(x^2 + 1)^3$, and then use the product rule to differentiate the overall function by taking the derivative of the first factor, $(x^2 + 1)^3$, and multiplying it by the second factor, $ ext{sin}(x)$, plus the first factor, $(x^2 + 1)^3$, multiplied by the derivative of the second factor, $ ext{sin}'(x)$. This integration of multiple differentiation rules allows us to tackle more advanced problems involving integer exponents, scientific notation, and other mathematical concepts.