# Product Rule For Derivatives | Summary and Q&A

1.0M views
February 25, 2018
by
The Organic Chemistry Tutor
Product Rule For Derivatives

## TL;DR

The video explains the product rule for finding derivatives, using examples with functions and trigonometric functions.

## Key Insights

• 📏 The product rule is used to find the derivative of a product of two functions.
• 🔌 The process involves finding the derivatives of each individual function and plugging them into the product rule formula.
• 😑 The product rule can be used with various types of functions, including polynomial expressions and trigonometric functions.
• 😑 The resulting expression after applying the product rule can sometimes be simplified by factoring or combining terms.
• 🌍 The product rule is a fundamental concept in calculus and is necessary for finding derivatives in many real-world applications.
• 👻 Understanding the product rule allows for differentiation of more complex functions and mathematical models.
• 📏 The product rule can be extended to more than two functions by differentiating each function separately and applying the formula.

## Transcript

in this lesson we're going to go over the product rule for derivatives so let's say if we have a function f multiplied by another function g the derivative of f times g is going to be f prime g plus f of g prime so let me give an example let's say if we want to find the derivative of x squared sine x so notice that f is basically x squared and g is... Read More

### Q: What is the product rule for finding derivatives?

The product rule states that if we have a function f multiplied by another function g, the derivative of f times g is f'g + fg'.

### Q: How do you use the product rule to find derivatives?

To use the product rule, first find the derivatives of each individual function. Then, plug them into the product rule formula: f'g + fg'. Simplify the expression if possible.

### Q: Can you give an example of using the product rule for finding a derivative?

Sure, let's take the example of finding the derivative of x^2 * sin(x). The derivative of x^2 is 2x, and the derivative of sin(x) is cos(x). Using the product rule formula, we get the derivative as 2xsin(x) + x^2cos(x).

### Q: How do you simplify the expression after applying the product rule?

After applying the product rule, you can simplify the expression by factoring out common factors or combining like terms. If further simplification is not possible, you can leave the expression as it is.

## Summary & Key Takeaways

• The product rule states that the derivative of the product of two functions is the derivative of the first function times the second function, plus the first function times the derivative of the second function.

• The video provides examples of using the product rule for finding derivatives, including examples with polynomial expressions and trigonometric functions.

• The process involves finding the derivatives of each individual function, plugging them into the product rule formula, and simplifying the resulting expression.