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# Derivatives of Sums and Differences

## Rules for derivatives when functions are added, subtracted, or multiplied.

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Derivatives of Sums and Differences

Juan has been out playing with his model rocket all afternoon. Partway through the day, he started taking videos of the flights using his cell phone. Watching the video, he notices that the rockets actually seem to be getting faster after the launch instead of starting off at full speed and slowing down due to gravity.

Juan figures it is reasonable to assume it takes a bit for the engines to get the rocket up to full speed, but the acceleration seems to continue past when he figures that would continue.

After considering for a while, he wonders if the decreased mass of the rocket as it burns fuel might be the cause, assuming he knows the force generated by the engines and the starting and ending weight of the rocket, is there a way he could conjecture whether the increased acceleration might be a result of the decreased mass?

### Derivatives of Sums and Differences

Theorem: If and are two differentiable functions at then

and

In simpler notation

.

#### The Product Rule

Theorem: (The Product Rule) If and are differentiable at , then

In a simpler notation

In words, The derivative of the product of two functions is equal to the first function times the derivative of the second plus the second function times the derivatives of the derivative of the first.

Keep in mind that

### Examples

#### Example 1

Earlier, you were asked if Juan could make a conjecture about whether increased acceleration might be a result of decreased mass.

Yes, he can make the conjecture. Assuming that the force is equal to the change in mass times velocity (momentum) over change in time, then using the power rule and simplifying, he can discover that the acceleration of the rocket is equal to the force minus the velocity multiplied by change in mass over time, all divided by mass, in mathematics this looks like:

Looking at the upper-right portion of the equation, we can see that as mass decreases, the fraction goes negative. Since is multiplied by that fraction, it goes positive, and the overall function increases, meaning the rocket accelerates.

Looks like Juan was right.

#### Example 2

Find the derivative: .

Use the power rule to help:

#### Example 3

Find the derivative: .

Again, use the power rule to help:

#### Example 4

Find for .

There two methods to solve this problem. One is to multiply to find the product and then use the derivative of the sum rule. The second is to directly use the product rule. Either rule will produce the same answer. We begin with the sum rule.

y =
=

Taking the derivative of the sum yields

Now we use the product rule.

#### Example 5

Given: . What is when ?

By the difference rule:

..... By the power rule

..... The derivative of a constant = 0

So when we evaluate this at x = 0, we get 1, since 1 - 0 = 1

#### Example 6

What is the derivative of ?

We'll use the difference rule

First, expand

By the difference rule:

#### Example 7

Given . What is ?

We'll use the difference and power rules:

..... By the difference rule

..... By the power rule

#### Example 8

What is

We'll use the product rule:

.

.... By the power rule

..... By the power rule and simplifying

So we get

### Review

Find the derivative using the sum/difference rule.

1. (where a, b are constants)
2. What is ?
3. Given: , what is ?
4. If , what is ?

Find the derivative using the product rule.

1. What is the derivative of ?
2. Given: , , find when .
3. Given , find .
4. Find .
5. Find .
6. Given , , find when .
7. Given , find .

### Notes/Highlights Having trouble? Report an issue.

Color Highlighted Text Notes

### Vocabulary Language: English

derivative

The derivative of a function is the slope of the line tangent to the function at a given point on the graph. Notations for derivative include $f'(x)$, $\frac{dy}{dx}$, $y'$, $\frac{df}{dx}$ and \frac{df(x)}{dx}.

differentiable

A differentiable function is a function that has a derivative that can be calculated.

product rule

In calculus, the product rule states that the derivative of the product of two functions equals the first function times the derivative of the second function, added to the second function times the derivative of the first function.

theorem

A theorem is a statement that can be proven true using postulates, definitions, and other theorems that have already been proven.