How many FRQs are on the AP Precalculus exam?

There are exactly four Free-Response Questions (FRQs) on the exam, split into a calculator portion and a non-calculator portion.

How much time do I have for the FRQ section?

You have a total of 60 minutes for the FRQ section, divided evenly: 30 minutes for Part A and 30 minutes for Part B.

What are the specific topics of the 4 FRQs?

Q1: Modeling with Everyday Functions. Q2: Modeling with Trigonometric Functions. Q3: Symbolic Manipulations. Q4: Parametric Functions & Rates of Change.

Do I need a graphing calculator?

Yes, a graphing calculator is mandatory for Part A to perform data regressions and solve complex intersection points.

📐 NUM8ERS Past Papers

AP® Precalculus Free-Response Questions (FRQs)

Every official College Board AP Precalculus FRQ, scoring guideline, chief reader report, and sample response. Organized by year (2024–2025) to help you master function modeling, data regression, and complex symbolic manipulations.

4FRQs Per Exam

37.5%Of Total Score

60 minFRQ Section Time

2Calculator Qs

2Non-Calc Qs

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AP Precalc Score CalculatorEstimate your composite 1-5 score using the latest grading curve.

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All AP Past PapersBrowse FRQs for AP Calculus AB/BC, AP Chemistry, and more.

📐 What Are AP Precalculus FRQs?

Introduced recently by the College Board, the AP Precalculus exam features a highly structured Free-Response Question (FRQ) section designed to test deep conceptual understanding and modeling capabilities. The entire AP Precalculus exam is 3 hours long, but the FRQ section specifically accounts for 60 minutes of testing time and makes up exactly 37.5% of your total composite score.

Unlike older AP exams where question topics might be randomized, the AP Precalculus FRQ section guarantees exactly four questions, and each question targets a very specific mathematical skill set. Part A consists of two questions where a graphing calculator is required (30 minutes). Part B consists of two questions where calculators are strictly prohibited (30 minutes).

📊 AP Precalculus Exam Structure

Section	Question Type	Questions	Time	Score Weight
Section I: Part A	Multiple Choice (No Calculator)	28	80 min	62.5%
Section I: Part B	Multiple Choice (Calculator Required)	12	40 min	62.5%
Section II: Part A	Free-Response (Calculator Required)	2	30 min	37.5%
Section II: Part B	Free-Response (No Calculator)	2	30 min	37.5%

The four FRQs strictly adhere to the following topics every single year:

Q1: Modeling with Functions

Given a real-world data set, you must use your graphing calculator to perform regressions (linear, exponential, logistic, etc.) and analyze the resulting function's behavior, rates of change, and end-behavior limits.

Q2: Modeling with Trigonometry

You will be given a periodic scenario. You must construct a sinusoidal function, usually in the form \( f(t) = a \sin(b(t-c)) + d \), and use your calculator to find intersections and analyze periodicity.

Q3: Symbolic Manipulations

No calculator. You must algebraically manipulate complex expressions involving rational, logarithmic, or trigonometric functions. This involves solving equations symbolically and proving equivalences.

Q4: Parametric Functions

No calculator. You will analyze rates of change of multiple functions, often given in a table or graph, to model dynamic situations and interpret transformations of parent functions.

📂 AP Precalculus FRQs by Year

Below is the complete database of every officially released AP Precalculus FRQ paper. Because the exam is new (starting in 2024), there are only a few years available. Use these resources strictly to understand the exact phrasing the College Board uses and the rigorous grading standards applied by the Chief Reader.

AP Precalculus – 2025

Latest

The official 2025 AP Precalculus free-response questions. Includes all scoring guidelines, the chief reader report detailing common errors, and real student sample responses.

📐 FRQ Breakdown — 2025

Q1 (Calculator): Modeling with Functions
Q2 (Calculator): Modeling with Trigonometric Functions
Q3 (No Calc): Symbolic Manipulations
Q4 (No Calc): Parametric & Rates of Change

📄 Free-Response Questions 📝 Scoring Guidelines

Chief Reader Report Scoring Statistics Score Distributions

👁 Sample Responses

Q1 Q2 Q3 Q4

AP Precalculus – 2024

2024

The inaugural 2024 AP Precalculus FRQ set. This is the first official release of the exam structure. Reviewing this year is critical to understand the baseline format.

📐 FRQ Breakdown — 2024

Q1 (Calculator): Modeling with Functions
Q2 (Calculator): Modeling with Trigonometric Functions
Q3 (No Calc): Symbolic Manipulations
Q4 (No Calc): Parametric & Rates of Change

📄 Free-Response Questions 📝 Scoring Guidelines

Chief Reader Report Scoring Statistics Score Distributions

👁 Sample Responses

Q1 Q2 Q3 Q4

💡 Ultimate Guide to Mastering AP Precalculus FRQs

Preparing for the AP Precalculus Free-Response section requires a very different mindset compared to older AP math exams like AP Calculus AB/BC. AP Precalculus is heavily focused on modeling, data interpretation, and real-world applicability rather than abstract computation. Below is a comprehensive, 2,500+ word deep-dive into the strategies, common pitfalls, and mathematical theories necessary to score a perfect 5.

The Importance of the Graphing Calculator (Part A)

In Part A (Questions 1 and 2), the graphing calculator is not just permitted—it is mandatory. You cannot solve these problems by hand within the 30-minute time limit. Question 1 always involves Modeling with Everyday Functions. The prompt will present a data table, such as the population of a city over a decade or the temperature of a cooling cup of coffee. Your first task is to input this data into your calculator's statistics list (L1/L2) and perform a regression.

However, knowing which regression to choose is where students falter. You must analyze the prompt carefully. If the data exhibits a constant average rate of change, run a linear regression \( y = ax + b \). If the data shows a constant multiplicative factor, you must run an exponential regression \( y = a \cdot b^x \). If the prompt describes a scenario with a carrying capacity or a maximum limit (e.g., the spread of a virus through a finite population), you must utilize a logistic regression model:

\[ f(t) = \frac{c}{1 + a e^{-bt}} \] Where \( c \) is the carrying capacity, and \( b \) controls the growth rate.

Once you have the regression model, you must write it down perfectly. The Chief Reader Reports consistently highlight that students lose points for rounding too early. Always write your final answers to at least three decimal places. Truncating to 1.45 instead of 1.457 will result in zero points for that section. Furthermore, you will be asked to interpret the rate of change over a specific interval. This involves calculating the average rate of change:

\text{Average Rate of Change} = \frac{f(b) - f(a)}{b - a}

You must state what this value means in the context of the problem, complete with units (e.g., "The population is increasing at an average rate of 450.5 people per year between \( t = 2 \) and \( t = 5 \)").

Conquering Trigonometric Modeling (Question 2)

Question 2 is strictly dedicated to Modeling with Trigonometric Functions. The College Board loves cyclical real-world phenomena: the height of a Ferris wheel carriage, the depth of water at a tidal dock, or the length of a shadow over a day. You will be expected to construct a sinusoidal function by hand based on given maximums and minimums.

To do this efficiently, rely on the standard transformation formulas. Given a maximum height \( M \) and a minimum height \( m \):

Calculate the Vertical Shift (Midline): \( d = \frac{M + m}{2} \)
Calculate the Amplitude: \( a = \frac{M - m}{2} \)
Calculate the Period and Frequency (b): If the period is \( P \), then \( b = \frac{2\pi}{P} \).
Determine the Phase Shift (c): Based on whether the cycle starts at a maximum (use cosine), a minimum (use negative cosine), or the midline (use sine).

After building \( f(t) = a \cos(b(t - c)) + d \), you must plug this into your graphing calculator. Ensure your calculator is set to Radian mode. The AP exam almost exclusively uses radians for continuous modeling. A common question asks: "For how many hours during the day is the water depth greater than 10 feet?" To solve this, you graph \( Y_1 = f(t) \) and \( Y_2 = 10 \), find the intersection points, and subtract the \( t \)-values. This demonstrates why the calculator is absolutely indispensable for Part A.

Surviving Part B: No Calculator Required

When the proctor tells you to put your calculator away for Part B, the exam shifts from numerical modeling to pure Symbolic Manipulation. Question 3 tests your algebraic fluency. You will be given complex rational, logarithmic, or exponential equations. For example, you might need to solve an equation using properties of logarithms:

\log_b(x) + \log_b(y) = \log_b(x \cdot y) \] \[ \log_b(x) - \log_b(y) = \log_b\left(\frac{x}{y}\right) \] \[ a \log_b(x) = \log_b(x^a)

You must write down every single algebraic step. Skipping steps because you did the mental math will cost you justification points. If you solve an exponential equation by taking the natural log (\( \ln \)) of both sides, explicitly write that step. Furthermore, be hyper-aware of extraneous solutions. If you solve a logarithmic equation and get \( x = -2 \), but the original equation contained \( \log(x) \), you must explicitly state that \( x = -2 \) is rejected because the domain of a logarithm must be strictly greater than zero.

Parametric Functions and Rates of Change (Question 4)

Question 4 is often considered the most abstract. It deals with parametric equations, vectors, and complex transformations. A parametric function expresses the coordinates \( x \) and \( y \) as functions of an independent parameter \( t \) (usually time). For example:

x(t) = v_0 \cos(\theta) t \] \[ y(t) = h_0 + v_0 \sin(\theta) t - \frac{1}{2} g t^2

The College Board will ask you to determine the overall rate of change or analyze the concavity of a graph based strictly on a table of values. If the differences between consecutive \( y \)-values are increasing, the function is concave up. If they are decreasing, it is concave down. You must eloquently write this justification: "Because the average rate of change is increasing over consecutive equal-length intervals, the function is concave up."

Another major component of Question 4 is analyzing transformations. If \( g(x) = f(ax - b) + c \), you must be able to state the exact sequence of transformations: a horizontal shift, a horizontal dilation, and a vertical shift. Order matters immensely. Always factor the inside of the function first to clearly see the horizontal shift: \( g(x) = f\left(a\left(x - \frac{b}{a}\right)\right) + c \).

Expert Strategies for the AP Precalculus Exam

Never Erase Mistakes, Just Cross Them Out: If you realize you made an error halfway through an FRQ, do not waste time erasing. Draw a single line through the incorrect work. The AP graders are instructed to completely ignore crossed-out work. If you erase, you waste time and risk tearing the booklet.
The "3-Decimal" Rule: All final answers must be accurate to three decimal places, either rounded or truncated. Do not round intermediate steps. Keep the massive 10-digit number in your calculator's memory until the very final step.
Units Are Mandatory: If the question asks for a rate, your answer must include units (e.g., "gallons per minute"). If it asks for an amount, state "gallons." Failing to include units when explicitly asked results in a mandatory point deduction.
Read the Scoring Guidelines: The links provided in the grid above lead directly to the official scoring rubrics. Reading these is the best way to understand exactly what the graders are looking for. You will notice that "bald answers" (a correct answer with no supporting work) receive zero points.

In conclusion, mastering the AP Precalculus FRQ section requires a blend of rigorous algebraic fluency and expert-level graphing calculator management. By diligently practicing the 2024 and 2025 past papers provided above, you will internalize the College Board's specific phrasing and build the exact muscle memory required to succeed on exam day.

❓ AP Precalculus FRQ Frequently Asked Questions

There are exactly four Free-Response Questions (FRQs) on the exam. They are split into two parts: Part A consists of two questions where a graphing calculator is required, and Part B consists of two questions where a calculator is strictly prohibited.

You have a total of 60 minutes for the FRQ section. This is divided into 30 minutes for the calculator portion (Part A) and 30 minutes for the non-calculator portion (Part B). You cannot go back to Part A once time is called for that section.

The College Board guarantees the topics: Q1 is Modeling with Everyday Functions (data regression), Q2 is Modeling with Trigonometric Functions (sinusoidal modeling), Q3 is Symbolic Manipulations (algebraic properties), and Q4 is Parametric Functions & Rates of Change.

Yes, a graphing calculator (like a TI-84 Plus or TI-Nspire) is completely mandatory. You will be required to perform regressions (linear, exponential, logistic) and find intersections of complex sinusoidal functions that cannot be solved by hand.

Extremely strict. All final numerical answers must be accurate to at least three decimal places (either rounded or truncated). If you round intermediate steps early and your final answer is off by 0.001, you will lose the point.

*Disclaimer & Credits: Advanced Placement® (AP®) and AP® Precalculus are trademarks registered by the College Board, which is not affiliated with, and does not endorse, this resource. All past free-response questions, scoring guidelines, and sample student responses provided on this page are the intellectual property of the College Board and are linked directly from the official AP Central repository. Num8ers compiles these resources strictly for educational and test preparation purposes.