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  1. 6th Grade Math

  3. Analyze Dependent and Independent Variables

6TH GRADE MATH • EXPRESSIONS AND EQUATIONS

Analyze Dependent and Independent Variables

Learn how two changing quantities connect through equations, tables, and graphs.

SECTION 1

Where Did Variables Come From?

People have always noticed patterns in the world. A farmer knows that planting more seeds means growing more crops. A traveler knows that walking longer means covering more distance. For thousands of years, people described these patterns with words. But eventually, mathematicians invented a powerful shortcut: variables (letters that stand for numbers that can change).

Let's look at how this idea developed over time.

~1700 BCE
Babylonian Word Problems
Ancient Babylonian scribes wrote clay tablets with problems about changing quantities, like wages earned for days worked. They used words instead of letters.
~250 CE
Diophantus Uses Symbols
The Greek mathematician Diophantus began using abbreviations for unknown quantities. This was an early step toward modern variables.
1637
Descartes Introduces x, y, z
French mathematician René Descartes started using letters like x and y to represent unknowns. He also invented the coordinate plane for graphing relationships.
Today
Variables Are Everywhere
Scientists, engineers, and everyday people use variables to describe relationships — from speed and distance to calories and exercise minutes.

The big question these thinkers were trying to answer is the same one you'll explore in this lesson: When one quantity changes, how does another quantity change along with it?

SECTION 2

Core Principles & Definitions

Before we dive into examples, let's nail down the key ideas you'll need.

1

Independent Variable

The quantity you choose or control. It stands on its own. Think of it as the input. Example: the number of hours you work.
2

Dependent Variable

The quantity that depends on the independent variable. It's the output. Example: the total money you earn depends on how many hours you work.
3

Equation

A math sentence using variables that shows the exact rule connecting the two quantities. Example: m = 12h means money equals 12 dollars times hours.
4

Table of Values

An organized list of input-output pairs. You plug in values for the independent variable and record what the dependent variable equals.
5

Graph

A picture on a coordinate plane. The independent variable goes on the horizontal (x) axis. The dependent variable goes on the vertical (y) axis. Each pair becomes a plotted point.
✦ KEY TAKEAWAY
Think of independent and dependent variables like a video game controller and a character on screen. You control the joystick (independent variable). The character's movement on screen (dependent variable) depends on what you do with the joystick. The game's programming is the equation — the rule that turns your input into the character's output.
SECTION 3

Seeing the Relationship: Tables and Graphs

Imagine a car driving on a highway at a constant speed of 65 miles per hour. The longer the car drives, the farther it goes. Let's use the variable t for time (in hours) and d for distance (in miles). The equation is d = 65t. The diagram below shows the table and graph side by side.

Distance vs. Time at 65 mphTABLEt (hrs)d (mi)001652130319542605325GRAPHTime t (hours) — Independent VariableDistance d (miles) — Dependent Variable065130195260325012345(1, 65)(2, 130)(3, 195)(4, 260)(5, 325)
The table on the left shows ordered pairs of (time, distance). On the graph, time (independent variable) goes on the horizontal axis and distance (dependent variable) goes on the vertical axis. Notice the straight line — that means the relationship is constant.

Look at the graph closely. Each dot is one row from the table. When t = 0, the car hasn't gone anywhere, so d = 0. When t = 3, the car has traveled 195 miles. The dots form a perfectly straight line because the car moves at a constant rate. This is typical for equations like d = 65t, where one variable equals a number times the other.

SECTION 4

The Mathematical Framework

Now let's look at the math behind dependent and independent variables. The general idea is simple: you write the dependent variable on one side of the equation and the independent variable (with some operation) on the other side.

GENERAL FORM
dependent variable = rule × independent variable
The rule could be multiplication, addition, or another operation. The key is that the dependent variable is alone on one side of the equation.
DISTANCE AND TIME
d = 65t
d = distance in miles (dependent), t = time in hours (independent), 65 = speed in miles per hour (constant rate).
EARNINGS AND HOURS
e = 10h
e = earnings in dollars (dependent), h = hours worked (independent), 10 = pay rate of $10 per hour.
COST OF APPLES
c = 2a
c = total cost in dollars (dependent), a = number of apples (independent), 2 = price per apple in dollars.

Notice the pattern. In every equation, you pick a value for the independent variable, do the math, and get the dependent variable. The independent variable is like the question you ask: "What if I drive for 3 hours?" The dependent variable is the answer: "You'd travel 195 miles."

SECTION 5

How to Identify Independent and Dependent Variables

Sometimes the hardest part is figuring out which variable is which. Here's a trick: ask yourself, "Which quantity do I choose, and which quantity responds?" The one you choose is independent. The one that responds is dependent.

Identifying Independent vs. Dependent VariablesINDEPENDENT VARIABLEThe INPUT — you choose itGoes on the x-axis (horizontal)DEPENDENT VARIABLEThe OUTPUT — it respondsGoes on the y-axis (vertical)determines1Babysitting:Hours babysitting (independent) → Total earnings (dependent) e = 8h2Buying Snacks:Number of snacks (independent) → Total cost (dependent) c = 3n3Running Laps:Number of laps (independent) → Total distance in meters (dependent) d = 400n
This diagram shows three real-life examples. In each case, the independent variable is the input you choose and the dependent variable is the output that responds.
💡 Quick Test
Try the sentence: "The ___ depends on the ___." Fill in the blanks. The first blank is the dependent variable. The second blank is the independent variable. For example: "The total cost depends on the number of apples."
SECTION 6

Worked Example: Earning Money Mowing Lawns

Let's walk through a complete problem step by step. Sarah earns $15 for every lawn she mows. We want to write an equation, build a table, and describe a graph.

Lawn Mowing Earnings

Step 1 — Identify the Variables

Sarah chooses how many lawns to mow, so the number of lawns (n) is the independent variable. Her total earnings depend on that choice, so earnings (e) is the dependent variable.
Independent: n (lawns) | Dependent: e (dollars)

Step 2 — Write the Equation

She earns $15 per lawn, so multiply the number of lawns by 15.
e = 15n

Step 3 — Build a Table

Plug in values for n. If n = 0, then e = 15 × 0 = 0. If n = 1, then e = 15 × 1 = 15. If n = 2, then e = 15 × 2 = 30. Continue the pattern: n = 3 gives e = 45, n = 4 gives e = 60, n = 5 gives e = 75.
Ordered pairs: (0, 0), (1, 15), (2, 30), (3, 45), (4, 60), (5, 75)

Step 4 — Describe the Graph

Plot n on the x-axis and e on the y-axis. Each ordered pair becomes a point. When you connect the dots, you get a straight line going upward from left to right. The line starts at the origin (0, 0) because if Sarah mows zero lawns, she earns zero dollars.
The graph is a straight line through the origin.

Step 5 — Analyze the Relationship

Every time n increases by 1, e increases by 15. This constant rate of change ($15 per lawn) is the number in front of n in the equation. The table, graph, and equation all tell the same story.
Rate of change = $15 per lawn
SECTION 7

Comparing Tables, Graphs, and Equations

Tables, graphs, and equations are three different ways to show the same relationship. Each one has strengths and weaknesses. Let's compare them.

Comparing the three representations of a relationship
RepresentationStrengthsLimitations
TableShows exact values; easy to read specific pairs; good for organizing dataOnly shows values you listed; hard to see the big-picture pattern
GraphShows the overall shape and trend; lets you estimate in-between values; visually clearHard to read exact numbers; takes time to draw carefully
EquationWorks for any input value; compact and powerful; shows the exact ruleHarder to visualize; you need to do calculations to find specific values
✦ KEY TAKEAWAY
Think of it like describing a road trip. A table is like a list of rest stops with their mile markers. A graph is like seeing the road on a map. An equation is like having GPS directions that work no matter where you are. All three describe the same trip — just in different ways!
SECTION 8

Connection to Future Math

Understanding dependent and independent variables is one of the most important skills you'll build this year. It connects directly to bigger topics you'll learn soon.

How this topic connects to future courses
What You Know Now (6th Grade)What's Coming Next
Identify independent and dependent variablesIn 7th grade, you'll study proportional relationships and unit rates in more depth
Write equations like d = 65tIn 8th grade, you'll learn about slope and y-intercept (y = mx + b)
Make tables and plot pointsIn Algebra 1, you'll graph functions and study different types of relationships
Recognize a constant rate of changeIn higher math, you'll explore rates that change over time (curves instead of lines)

The equations you write today — like d = 65t or e = 15n — are your first linear equations. You'll study these in depth in 7th and 8th grade. But the core idea never changes: one variable depends on another, and an equation captures the rule.

SECTION 9

Practice Problems

PROBLEM 1 — CONCEPTUAL
A pizza shop charges $9 per pizza. You order p pizzas and pay a total of c dollars. Which is the independent variable and which is the dependent variable? Explain your reasoning.
PROBLEM 2 — BASIC CALCULATION
A movie streaming service charges $5 per month. Write an equation where m is the number of months and c is the total cost. Then find the total cost after 6 months.
PROBLEM 3 — INTERMEDIATE
A train travels at a constant speed of 80 miles per hour. Write an equation for the relationship between time (t, in hours) and distance (d, in miles). Make a table showing the distance for t = 0, 1, 2, 3, and 4 hours. What ordered pair represents 2.5 hours of travel?
PROBLEM 4 — APPLIED
Your school's robotics club is selling chocolate bars for $4 each to raise money. They also received a $20 donation before any sales. Write an equation where b is the number of bars sold and t is the total money raised. Make a table for b = 0, 5, 10, 15, and 20. Is the relationship between b and t still a straight line on a graph? Why or why not?
PROBLEM 5 — CRITICAL THINKING
Two friends start biking at the same time. Friend A bikes at 12 miles per hour (d = 12t). Friend B bikes at 8 miles per hour but got a 10-mile head start (d = 8t + 10). Build a table for each friend using t = 0, 1, 2, 3, 4, and 5 hours. At what time does Friend A catch up to Friend B? How can you tell from the table?
SUMMARY

Lesson Summary

In this lesson, you learned that two quantities in a real-world situation often change together. The independent variable is the quantity you choose or control (the input), and the dependent variable is the quantity that changes in response (the output). You write the dependent variable alone on one side of an equation to show the rule connecting them, like d = 65t for distance and time.

You can represent the same relationship in three ways: a table lists specific ordered pairs, a graph plots those pairs on a coordinate plane (independent variable on the x-axis, dependent on the y-axis), and an equation gives the rule that works for any value. When the rate of change is constant, the graph forms a straight line. Mastering this skill prepares you for proportional relationships, slope, and linear equations in the years ahead.

Varsity Tutors • 6th Grade Math • Analyze Dependent and Independent Variables