---
title: "Quartile — AP Stats Definition, Q1, Q3 & IQR Guide"
description: "Quartiles split ordered data into four equal parts. Q1 is the 25th percentile, Q3 the 75th. They build the IQR, boxplots, and the 1.5×IQR outlier rule in Unit 1."
canonical: "https://fiveable.me/ap-stats/key-terms/quartile"
type: "key-term"
subject: "AP Statistics"
unit: "Unit 1"
---

# Quartile — AP Stats Definition, Q1, Q3 & IQR Guide

## Definition

Quartiles are the values that split an ordered dataset into four equal parts. The first quartile (Q1) marks the 25th percentile, the median is the 50th, and the third quartile (Q3) is the 75th. On the AP Stats exam, Q1 and Q3 anchor the five-number summary, the IQR, boxplots, and the 1.5×IQR outlier rule.

## What It Is

A quartile is a cut point that divides ordered data into four equal-sized chunks. The [first quartile](/ap-stats/key-terms/first-quartile "fv-autolink") (Q1) sits at the 25th percentile, meaning about 25% of the data falls at or below it. The median is the second quartile (the 50th percentile), and the [third quartile](/ap-stats/unit-1/summary-statistics-for-quantitative-variable/study-guide/fDwLeu9W74iSnEcnKHOA "fv-autolink") (Q3) is the 75th percentile. To find Q1 and Q3, order the data, find the median, then take the median of the lower half (that's Q1) and the median of the upper half (that's Q3).

Quartiles do a lot of heavy lifting in [Unit 1](/ap-stats/unit-1 "fv-autolink"). They give you the **interquartile range** (IQR = Q3 − Q1), which measures the spread of the middle 50% of the data. They form three of the five numbers in the **five-number summary** (minimum, Q1, median, Q3, maximum), which is exactly what a boxplot draws. And they power the most-used outlier rule on the exam, where anything beyond Q1 − 1.5×IQR or Q3 + 1.5×IQR gets flagged. Think of quartiles as the skeleton of every boxplot you'll ever read or build.

## Why It Matters

Quartiles live in Unit 1 (Exploring One-Variable Data) under Topics 1.7 and 1.8. They support learning objective 1.7.A (calculating measures of position), 1.7.B (the IQR is defined as Q3 − Q1), 1.7.C (choosing resistant measures and applying the 1.5×IQR outlier rule), and 1.8.A and 1.8.B (the box in a [boxplot](/ap-stats/key-terms/boxplot "fv-autolink") literally runs from Q1 to Q3). The big conceptual payoff is **resistance**. Per the CED, the median and IQR are resistant (robust) because outliers barely move them, while the mean, [standard deviation](/ap-stats/unit-1/investigative-question-revisited-data-collection/study-guide/f842Kr6YNnYX4G0dtAC8 "fv-autolink"), and range are not. So whenever a distribution is skewed or has outliers, quartile-based summaries are the ones you should reach for, and the exam loves asking you to justify that choice.

## Connections

### [Box Plot (Unit 1)](/ap-stats/key-terms/box-plot)

A boxplot is the [five-number summary](/ap-stats/unit-1/graphical-representations-summary-statistics/study-guide/szST2YgJZujXFuArUBjm "fv-autolink") drawn as a picture. The box stretches from Q1 to Q3, so the box itself shows you the middle 50% of the data at a glance. If you can find quartiles, you can read and draw boxplots.

### [Interquartile Range (IQR) (Unit 1)](/ap-stats/key-terms/interquartile-range-iqr)

The IQR is just Q3 minus Q1. It measures [spread](/ap-stats/key-terms/spread "fv-autolink") using only the quartiles, which is exactly why it's resistant to outliers. A wild maximum value changes the range a lot but leaves the IQR untouched.

### [Percentile (Unit 1)](/ap-stats/key-terms/percentile)

Quartiles are special-case [percentiles](/ap-stats/key-terms/percentile "fv-autolink"). Q1 is the 25th percentile and Q3 is the 75th. Once you understand percentiles as 'the percent of data at or below a value,' quartiles are just the quarter marks on that same scale.

### [Median (Unit 1)](/ap-stats/key-terms/median)

The median is the second quartile, the 50th percentile. The standard AP method even uses the median twice over, since Q1 and Q3 are found by taking the medians of the lower and upper halves of the ordered data.

## On the AP Exam

Quartiles show up constantly on Unit 1 questions. Multiple-choice stems hand you a five-number summary or a boxplot and ask you to compute the IQR, apply the 1.5×IQR fences, or interpret what the box represents. One classic twist gives you a boxplot with a missing whisker, where Q3 and the maximum are equal, and asks what that tells you about the data. Free-response questions use quartiles for outlier checks and distribution comparisons. The 2021 FRQ on hospital lengths of stay focused on identifying unusually short or long values, exactly the job of the 1.5×IQR rule, and the 2023 FRQ on Alaskan stream chemistry asked for comparisons across groups where boxplot features like Q1, median, and Q3 carry the argument. Two skills matter most. First, calculate quartiles and fences correctly. Second, justify choosing quartile-based summaries (median and IQR) over the mean and standard deviation when the distribution is skewed or has outliers.

## quartile vs Percentile

Every quartile is a percentile, but not every percentile is a quartile. A percentile can be any cut point (the 90th percentile, the 37th percentile), while quartiles are the three specific cut points that split data into quarters. If a question says 'Q1,' translate it instantly to 'the 25th percentile' and you'll never get lost. Also don't confuse the quartile (a single value) with the quarter of the data it bounds. Q1 is one number, not a chunk of 25% of the observations.

## Key Takeaways

- Quartiles split ordered data into four equal parts, with Q1 at the 25th percentile, the median at the 50th, and Q3 at the 75th.
- The five-number summary is the minimum, Q1, median, Q3, and maximum, and a boxplot is just that summary drawn as a graph.
- The IQR equals Q3 minus Q1 and measures the spread of the middle 50% of the data.
- The 1.5×IQR outlier rule flags any value above Q3 + 1.5×IQR or below Q1 − 1.5×IQR.
- Quartiles and the IQR are resistant to outliers, which makes them the better choice for describing skewed distributions, while the mean, standard deviation, and range are not.
- If a boxplot has no whisker on one end, that quartile and the extreme value are equal, meaning the data is bunched up on that side.

## FAQs

### What is a quartile in AP Stats?

A quartile is a value that divides ordered data into four equal parts. Q1 marks the 25th percentile, the median is the 50th, and Q3 is the 75th. Together with the minimum and maximum, Q1 and Q3 complete the five-number summary.

### Is the median a quartile?

Yes. The median is the second quartile (Q2), sitting at the 50th percentile. It's usually just called the median, but it's the middle cut point of the four-part split.

### How is a quartile different from the IQR?

A quartile is a single position value, while the IQR is a measure of spread calculated from two quartiles. IQR = Q3 − Q1, so it tells you how wide the middle 50% of the data is, not where any one value sits.

### How do you find outliers using quartiles?

Use the 1.5×IQR rule from the CED. Compute IQR = Q3 − Q1, then flag any value above Q3 + 1.5×IQR or below Q1 − 1.5×IQR as an outlier. For example, with Q1 = 15 and Q3 = 30, the IQR is 15, so the upper fence is 30 + 22.5 = 52.5.

### Are quartiles affected by outliers?

Barely, if at all. Quartiles depend on position in the ordered list, not on extreme values, so the CED classifies the median and IQR as resistant (robust) statistics. That's why you describe skewed distributions with the median and IQR instead of the mean and standard deviation.

## Related Study Guides

- [1.7 Summary Statistics for One Quantitative Variable](/ap-stats/unit-1/summary-statistics-for-quantitative-variable/study-guide/fDwLeu9W74iSnEcnKHOA)

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