Home

Tutoring

Subjects

Live Classes

Study Coach

Essay Review

On-Demand Courses

Colleges

Games

Opening subject page...

Loading your content

  1. ISEE Middle Level Quantitative Reasoning

  3. Interpret Graphs and Tables

ISEE MIDDLE LEVEL • QUANTITATIVE REASONING

Interpret Graphs and Tables

Learn to read, compare, and draw conclusions from data displayed in charts and tables.

SECTION 1

Why Do We Use Graphs and Tables?

People have been organizing information visually for hundreds of years. Before computers, scientists and business owners needed quick ways to spot trends in their data. Writing out long lists of numbers made it hard to see patterns, so people invented graphs (pictures that show data) and tables (organized rows and columns of data) to make information easier to understand at a glance.

1786
First Bar Chart
William Playfair, a Scottish engineer, published the first bar chart. He used it to show trade data between countries.
1858
Florence Nightingale's Pie Charts
Nurse Florence Nightingale used pie charts to show causes of soldier deaths. Her visuals convinced leaders to improve hospital conditions.
1914
Line Graphs in Science
Line graphs became standard in science classrooms and research labs, helping people track changes over time.
2000s
Digital Data Everywhere
Computers and the internet made data visualization common in everyday life — from sports stats to weather apps on your phone.

Today, graphs and tables are everywhere. You see them in news articles, science reports, and even video game leaderboards. On the ISEE, you'll need to read these displays carefully and answer questions about what the data shows. Let's learn how!

SECTION 2

Core Principles of Reading Data

Before jumping into specific graph types, there are a few key ideas that apply every time you look at data. Think of these as your data-reading toolkit. Master these principles and you'll be ready for any graph or table the ISEE throws at you.

1

Read the Title First

The title tells you what the data is about. It's like the subject line of an email — it gives you the big picture before you look at the details.
2

Check the Labels and Units

Labels tell you what each axis, column, or row represents. Units (like dollars, miles, or students) tell you how the data is measured.
3

Watch the Scale

The scale is the set of numbers along an axis. Check if it counts by 1s, 5s, 10s, or some other amount. Misreading the scale is a common mistake!
4

Look for Trends and Comparisons

Ask yourself: Is something going up, going down, or staying the same? Which category is the biggest or smallest? These are the kinds of questions the ISEE asks.
5

Do the Math When Needed

Sometimes you need to add, subtract, or find an average. Read the question carefully so you know exactly which operation to use.
✦ KEY TAKEAWAY
Reading a graph is like reading a map. You wouldn't just stare at a map — you'd check the legend, look at the street names, and find where you are. Similarly, always check the title, labels, and scale before answering any questions.
SECTION 3

Types of Graphs You'll See on the ISEE

The ISEE uses several types of graphs. The most common are bar graphs, line graphs, pie charts (also called circle graphs), and pictographs. The diagram below shows what each type looks like and when it's used.

Common Graph Types on the ISEEBar Graph010203040MonTueWedThuLine Graph020406080JanFebMarAprMayPie Chart (Circle Graph)Math 35%Science 25%English 20%History 20%Data TableStudentMathScienceAlex9288Maya8594Sam7882Lily9590
The four most common data displays you'll encounter on the ISEE: bar graphs compare amounts by category, line graphs show changes over time, pie charts show parts of a whole, and data tables organize exact values in rows and columns.

Each type of graph is best for a certain kind of data. Bar graphs are great for comparing amounts across categories (like scores by day). Line graphs show how something changes over time. Pie charts show how a whole is divided into parts. And tables give you exact numbers when precision matters.

SECTION 4

The Math Behind Reading Data

Many ISEE questions don't just ask you to read a single number from a graph. They ask you to calculate something using the data. Here are the most common calculations you'll need.

FINDING THE DIFFERENCE
Difference = Larger Value − Smaller Value
Use this when a question asks "how many more" or "how much greater." Read both values from the graph, then subtract the smaller from the larger.
FINDING THE TOTAL
Total = Value₁ + Value₂ + Value₃ + …
Use this when a question asks for a combined amount or a sum. Add all the values the question asks about.
FINDING THE AVERAGE (MEAN)
Average = Total ÷ Number of Items
First add up all the values. Then divide by how many values you added. For example, the average of 10, 20, and 30 is (10 + 20 + 30) ÷ 3 = 20.
FINDING A PART FROM A PIE CHART
Part = Percent × Total
If a pie chart says 25% of 200 students chose pizza, then the part is 0.25 × 200 = 50 students. Remember to convert the percent to a decimal first.
💡 ISEE TIP
On quantitative comparison questions, you don't always need an exact value. Sometimes you can tell which column is greater just by looking at the graph — for example, a taller bar means a bigger value. Save time by comparing first and calculating only if you need to!
SECTION 5

Step-by-Step Reading Strategies

Let's look at a detailed example with a bar graph. The diagram below shows the number of books read by five students over the summer. We'll use it to practice reading data carefully.

Books Read Over SummerStudentNumber of Books051015202515Emma20Jake10Sofia24Aiden18Mia
This bar graph shows that Aiden read the most books (24) and Sofia read the fewest (10). The y-axis scale counts by 5s. Notice how each student's name appears below their bar, and the exact number appears above it.

How to Use This Graph

  • Who read the most? Find the tallest bar. That's Aiden with 24 books.
  • How many more did Jake read than Sofia? Find both values (20 and 10), then subtract: 20 − 10 = 10 more books.
  • What's the total for all five students? Add them up: 15 + 20 + 10 + 24 + 18 = 87 books.
  • What's the average? Divide the total by the number of students: 87 ÷ 5 = 17.4 books.
SECTION 6

Worked Example

Let's work through a full ISEE-style problem step by step. We'll use a table that shows ticket sales at a school carnival.

School Carnival Ticket Sales
DayAdult TicketsChild TicketsTotal Tickets
Friday4580125
Saturday70110180
Sunday5595150

Question: How many more child tickets were sold on Saturday than on Friday?

Solving the Ticket Problem

Step 1 — Read the Question Carefully

The question asks for the difference in child tickets between Saturday and Friday. The key words are "how many more," which tells us to subtract.

Step 2 — Find the Right Column and Rows

We need the "Child Tickets" column. Look at the Saturday row: 110. Now look at the Friday row: 80.
Saturday child tickets = 110, Friday child tickets = 80

Step 3 — Subtract

Subtract the smaller from the larger: 110 − 80 = 30.
30 more child tickets were sold on Saturday than Friday.
⚠️ COMMON TRAP
Make sure you're reading the correct row AND column. A tricky answer choice might show the difference in adult tickets (70 − 45 = 25) or the difference in total tickets (180 − 125 = 55). The ISEE puts these "trap" answers in the choices to catch students who aren't reading carefully.
SECTION 7

When to Use Each Graph Type

Understanding the strengths and limitations of each graph type helps you answer ISEE questions faster. Sometimes the test asks why a certain type of graph is the best choice. The table below breaks it down.

Graph TypeBest ForNot Ideal For
Bar GraphComparing amounts across categories (e.g., favorite sports by class)Showing change over time or parts of a whole
Line GraphShowing trends over time (e.g., temperature over a week)Comparing unrelated categories
Pie ChartShowing parts of a whole (e.g., budget breakdown)Comparing exact amounts or showing trends over time
TableDisplaying exact values; organizing lots of data neatlyQuickly seeing patterns or trends at a glance
✦ KEY TAKEAWAY
Think of graph types like tools in a toolbox. A hammer is great for nails but terrible for screws. Similarly, a line graph is perfect for showing change over time, but you'd want a pie chart if you need to show how a whole amount is split into parts.
SECTION 8

Connecting to More Advanced Data Skills

The skills you learn here are the foundation for more advanced topics you'll see later in math and science. Being comfortable with graphs and tables now sets you up for success on harder topics.

What You Learn NowWhat It Leads To Later
Reading values from a bar graphInterpreting histograms and frequency distributions
Finding trends in line graphsAnalyzing scatter plots and lines of best fit
Calculating averages from tablesWorking with mean, median, mode, and standard deviation
Reading percents from pie chartsSolving complex percent and proportion problems

On the ISEE, you might also see double bar graphs (which compare two data sets side by side) or multiple line graphs (which show two or more trends on the same set of axes). The reading strategies are the same — just make sure you check the legend to know which bar or line represents which data set.

SECTION 9

Practice Problems

Use the data displays described in each problem to find the answer. Remember: read the title, check the labels and scale, and figure out what the question is asking before you start calculating. Problems 4 and 5 are quantitative comparisons — use the special answer choices for those.

PROBLEM 1 — CONCEPTUAL
A bar graph shows the number of students in four school clubs: Drama (18), Chess (12), Art (24), and Band (30). Which club has the tallest bar on the graph? (A) Drama (B) Chess (C) Art (D) Band
PROBLEM 2 — BASIC CALCULATION
A table shows snack sales at a school store: Cookies: Monday 15, Tuesday 22 Fruit: Monday 10, Tuesday 18 Chips: Monday 20, Tuesday 14 How many total snacks were sold on Monday? (A) 35 (B) 40 (C) 45 (D) 54
PROBLEM 3 — INTERMEDIATE
A line graph shows the temperature at noon over five days: Monday 60°F, Tuesday 65°F, Wednesday 70°F, Thursday 55°F, Friday 70°F. What is the average noon temperature for these five days? (A) 60°F (B) 64°F (C) 65°F (D) 70°F
PROBLEM 4 — APPLIED
A pie chart shows how 200 students get to school: Bus 40%, Car 30%, Walk 20%, Bike 10%. Column A: The number of students who ride the bus Column B: The number of students who walk plus the number who bike (A) Column A is greater (B) Column B is greater (C) The two quantities are equal (D) Cannot be determined
PROBLEM 5 — CRITICAL THINKING
A table shows test scores for two students: Test 1: Kim 88, Lee 92 Test 2: Kim 95, Lee 84 Test 3: Kim 90, Lee 91 Column A: Kim's average score across all three tests Column B: Lee's average score across all three tests (A) Column A is greater (B) Column B is greater (C) The two quantities are equal (D) Cannot be determined
SUMMARY

Lesson Summary

Interpreting graphs and tables is one of the most important skills on the ISEE Quantitative Reasoning section. Always start by reading the title, checking the labels and units, and understanding the scale before answering any question. Use bar graphs to compare categories, line graphs to spot trends over time, pie charts to see parts of a whole, and tables to find exact values.

For calculations, remember to find differences by subtracting, totals by adding, and averages by dividing the total by the number of items. On quantitative comparison questions, compare values from the graph or table for each column. Watch out for trap answers that use the wrong row, column, or operation. You've got this!

Varsity Tutors • ISEE Middle Level • Interpret Graphs and Tables