It’s important to know the basics. You have to have a solid foundation in order to build a skyscraper, right? In this short review, I’ll discuss the basic formulas and properties that you’ll need to master in order to success on the AP Calculus exam.

## The Basic Formulas

First and foremost, you must be you must know arithmetic, algebra, and trigonometry inside-out. For a quick review check out the following helpful articles.

Once you have mastered those fundamental topics of mathematics, you can then build your expertise in calculus.

## Calculus-Specific Formulas

There are a number of basic formulas from calculus that you need to memorize for the exam.

Moreover, if you plan to take the Calculus BC exam, then you will have to know every formula that could show up on the AB exam, a whole slew of additional formulas and concepts that are specific to the BC exam.

It might help to look through the following “Cram Sheets” first.

The formulas can be categorized into four **Big Ideas**.

- Limits and Continuity
*(AB and BC)* - Derivatives and Their Applications
*(AB and BC)* - Integrals and Their Applications
*(AB and BC)* - Sequences and Series
*(BC only)*

### Limits and Continuity

There are not a lot of formulas for computing limits. Instead, each limit problem may require different algebraic or trigonometric “tricks.” However, it helps to know **L’Hospital’s Rule**:

A function *f* is **continuous** at a point *x* = *a* if:

The **Intermediate Value Theorem (IVT)** states that if a function *f* is continuous on a closed interval [*a*, *b*], and if *L* is any number between *f*(*a*) and *f*(*b*), then there must be a value *x* = *c* where *a* < *c* < *b*, such that *f*(*c*) = *L*.

### Average Rate/Velocity

Although this formula does not have to do with limits directly, it’s a useful concept and very important for developing the concepts of derivatives.

## Derivatives and Their Applications

**Limit definition** for the derivative:

Make sure you know *every* derivative rule.

### Basic Differentiation Rules

#### Product and Quotient Rule

#### Chain Rule

#### Inverse Functions

#### Polar and Parametric Functions

The AP Calculus BC exam also includes polar and parametric functions and their derivatives.

The derivative of a **polar function**, *r* = *f*(*θ*):

The derivative of a **parametric function**, *x* = *f*(*t*) and *y* = *g*(*t*):

#### Applications of Derivatives — Velocity

It’s important to know the relationship between position, velocity, and acceleration in terms of derivatives.

On the AP Calculus BC test, the position may be a vector function.

#### Mean Value Theorem and Rolle’s Theorem

There are two related theorems involving differentiable functions, the Mean Value Theorem, and Rolle’s Theorem.

**Mean Value Theorem (MVT)**: Suppose *f* is a function that is continuous on [*a*, *b*] and differentiable on (*a*, *b*). Then there is at least one value *x* = *c*, where *a* < *c* < *b*, such that

**Rolle’s Theorem**: Suppose *f* is a function that is continuous on [*a*, *b*], differentiable on (*a*, *b*), and *f(**a*) = *f*(*b*). Then there is at least one value *x* = *c*, where *a* < *c* < *b*, such that *f* '(*c*) = 0.

### Integrals and Their Applications

On the BC test, you may have to find velocity and speed for a **vector** position function.

#### Integration Techniques

The following formulas are useful for working out integrals of more complicated functions. Think of each rule as a potential tool in your toolbox. Sometimes an integral will require multiple tools.

*u*-Substitution

**Integration By Parts**(*BC only*)

#### The Fundamental Theorem of Calculus (FTC)

The **Fundamental Theorem of Calculus** comes in two versions.

If *F*(*x*) is any particular antiderivative for *f*(*x*), then

#### Average Value and Mean Value Theorem for Integrals

**Mean Value Theorem for Integrals (MVTI)**: Suppose *f* is continuous on [*a*, *b*]. Then there is at least one value *x* = *c*, where *a* < *c* < *b*, such that

#### Applications of Integrals

On the AP Calculus BC exam, you may also have to find the length of a **parametric curve** defined by *x* = *f*(*t*) and *y* = *g*(*t*).

Use the **washer** or **shell method** to find the volume of a **solid of revolution**.

### Sequences and Series

One of the most important formulas involving series is the **Geometric Series Formula**:

#### Convergence Tests

Given a series,

,

the following tests can help to prove that the series converges or diverges.

. If the series has general term*p*-series test*a*=_{n}*1/n*, then the series converges if^{p}*p*> 1 and diverges if*p*≤ 1.**Alternating series test**. If the series is**alternating**(i.e., the terms alternate in sign forever), then the series converges if and only if*a*→ 0 as_{n}*n*→ ∞. And in that case, the error bound for the*n*th partial sum is |*a*|._{n+1}**Ratio test**.

However, if the limit is > 1, then the series diverges. No information if the limit equals 1.**Root test**.Just as in the ratio test, if the limit is > 1, then the series diverges. No information if the limit equals 1.

#### Taylor and Maclaurin Series

If a function *f* is differentiable to all orders, then you can build its **Taylor series** centered at *c* as follows.

A Taylor series centered at c = 0 is called a **Maclaurin series**. Below are some common Maclaurin series that are worth memorizing.

## Get Ready!

This list provides just the foundation for your study. Memorizing a list of formulas will not guarantee you a high score on the exam. You must also understand *how* and *when* to use each formula.

Furthermore, there are tons of more specialized formulas that didn’t make it to this list. Master *all* of the AP topics and practice, practice, practice!

### More from Clemmonsdogpark

##### About Shaun Ault

Shaun earned his Ph. D. in mathematics from The Ohio State University in 2008 (Go Bucks!!). He received his BA in Mathematics with a minor in computer science from Oberlin College in 2002. In addition, Shaun earned a B. Mus. from the Oberlin Conservatory in the same year, with a major in music composition. Shaun still loves music -- almost as much as math! -- and he (thinks he) can play piano, guitar, and bass. Shaun has taught and tutored students in mathematics for about a decade, and hopes his experience can help you to succeed!

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