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  1. ACT Math

  3. Ratios & Proportions

a : bc : da/b = c/d
ACT MATH • INTEGRATING ESSENTIAL SKILLS

Ratios & Proportions

Master the foundational skill of comparing quantities and solving for unknowns that appears throughout the ACT.

SECTION 1

Historical Context & Motivation

The idea of comparing two quantities has been central to human civilization for thousands of years. Ancient merchants needed to know how many bushels of grain were equivalent to a certain weight of silver, builders needed consistent measurements to construct temples and pyramids, and astronomers needed to relate the distances between celestial bodies. At the heart of all these endeavors lies the concept of ratios — a way of expressing how one quantity relates to another — and proportions, which are statements that two ratios are equal.

~1800 BCE
Babylonian Clay Tablets
Babylonian scribes recorded ratio-based problems on clay tablets, using proportional reasoning to divide land and calculate trade values in the earliest known mathematical texts.
~300 BCE
Euclid's Elements, Book V
The Greek mathematician Euclid formalized the theory of proportions, defining when two ratios are equal and establishing logical proofs that became the basis of Western mathematics for two millennia.
~600 CE
Indian & Islamic Golden Age
Mathematicians like Brahmagupta and later al-Khwarizmi used proportional reasoning extensively in algebra, introducing cross-multiplication techniques still used today.
1637
Descartes & Symbolic Notation
René Descartes popularized writing ratios as fractions (a/b) within algebraic equations, bridging the gap between geometric proportion theory and modern algebraic methods.
Present
The ACT & Standardized Testing
Ratios and proportions remain a core tested skill on the ACT because they underpin unit conversion, scale factors, probability, trigonometry, and dozens of real-world applications.

The fundamental question that ratios and proportions answer is deceptively simple: If two quantities are related in a certain way, how do we find an unknown quantity when only part of the relationship is given? This question shows up in nearly every branch of mathematics and science, and on the ACT it appears in contexts ranging from map scales to mixture problems to similar triangles.

SECTION 2

Core Principles & Definitions

Before tackling any problem, you need a rock-solid understanding of what ratios and proportions actually are and the rules that govern them. A ratio is a comparison of two quantities by division, while a proportion is an equation stating that two ratios are equal. These definitions lead to several powerful properties that make solving problems efficient.

1

Ratio

A comparison of two quantities, written as a : b, a/b, or "a to b." The order matters — 3 : 5 is different from 5 : 3.
2

Proportion

An equation of two equal ratios: a/b = c/d. The four values a, b, c, d are called the terms of the proportion.
3

Cross-Multiplication

If a/b = c/d, then a × d = b × c. This property converts a proportion into a solvable linear equation, which is your most-used tool on the ACT.
4

Means & Extremes

In the proportion a : b = c : d, the extremes are a and d (the outer terms), while the means are b and c (the inner terms). The product of the means always equals the product of the extremes.
5

Equivalent Ratios

Multiplying or dividing both parts of a ratio by the same nonzero number yields an equivalent ratio. For example, 2 : 5 = 4 : 10 = 6 : 15. Simplifying ratios works just like simplifying fractions.
✦ KEY TAKEAWAY
KEY TAKEAWAY
SECTION 3

Visual Explanation

The diagram below illustrates the core idea of a proportion and how cross-multiplication works. On the left, two bar models represent equal ratios, and on the right, arrows show the cross-multiplication pattern that produces the equation you can solve.

Bar Model: Equal RatiosCross-MultiplicationRatio 1a = 3b = 5Ratio 2c = 6d = 10Both ratios simplify to 3 : 53/5 = 6/10 ✓a / b = c / da/b=c/dCross-multiply:a × d = b × c3 × 10 = 5 × 630 = 30 ✓
Left: bar models show that both ratios (3 : 5 and 6 : 10) represent the same relative comparison. Right: the cross-multiplication pattern — multiply the numerator of the first by the denominator of the second, and vice versa — to confirm equality or solve for an unknown.

Notice that in the bar model, the ratio 6 : 10 uses bars exactly twice as long as 3 : 5, but the relative proportions remain identical. This visual reinforces the idea that multiplying both terms of a ratio by the same number doesn't change the comparison. When you encounter a proportion with one unknown — say 3/5 = x/20 — the cross-multiplication pattern instantly gives you 5x = 60, so x = 12. That single technique will carry you through a huge number of ACT questions.

SECTION 4

Mathematical Framework

Now let's formalize the algebra behind ratios and proportions. These equations are straightforward, but knowing them cold — especially the cross-multiplication rule — will save you critical seconds on test day.

RATIO DEFINITION
Ratio of a to b = a : b = a / b (b ≠ 0)
a and b are the two quantities being compared. The ratio a : b means "for every a of the first quantity, there are b of the second."
PROPORTION
a / b = c / d ⟹ a × d = b × c
This is the cross-multiplication property. It converts a proportion into a simple equation. If any one of the four values (a, b, c, d) is unknown, you can solve for it in one step after cross-multiplying.
SOLVING FOR AN UNKNOWN
a / b = x / d ⟹ x = (a × d) / b
After cross-multiplying to get b × x = a × d, divide both sides by b. This isolates x, giving you the unknown term.
PART-TO-WHOLE RATIO
If a : b : c, then part a = a / (a + b + c) × Total
When a ratio has three or more parts, add all parts to find the total number of "shares." Each part's actual value equals its share of the ratio times the total quantity. This appears frequently in ACT word problems involving mixtures or distributions.
ACT TIP
SECTION 5

Types of Ratio & Proportion Problems on the ACT

On the ACT, ratio and proportion questions don't always announce themselves with the word "ratio." They appear in disguise across many different problem types. The diagram and table below break down the most common ACT scenarios and the strategy you should use for each.

ACT Ratio & Proportion Problem TypesRATIOS & PROPORTIONSDirect ProportionAs x increases, y increasesy = kxe.g., unit pricing, speedPart-to-PartCompare subgroupsa : be.g., boys : girls, red : bluePart-to-WholeCompare part to totala / (a + b)e.g., % of class, probabilityScale / SimilarityMap or figure scalingmodel/actual = ke.g., maps, similar trianglesUniversal Strategy1Identify the two quantities being compared and their type2Set up the proportion with matching units (same unit on top of each fraction)3Cross-multiply and solve for the unknown
Four major types of ratio and proportion problems on the ACT, each branching from the central concept. The universal three-step strategy at the bottom applies to all of them: identify, set up, cross-multiply.
Common ACT ratio and proportion problem types with recognition cues and setup strategies
Problem TypeRecognizing ItSetup Strategy
Direct Proportion"If 5 apples cost $3, how much do 12 cost?" — same rate applies.5/$3 = 12/x → cross-multiply: 5x = 36 → x = $7.20
Part-to-Part"Ratio of boys to girls is 3 : 5. There are 24 boys. How many girls?"3/5 = 24/x → 3x = 120 → x = 40 girls
Part-to-Whole"Ratio of boys to girls is 3 : 5. There are 56 students total. How many boys?"Boys = 3/(3+5) × 56 = 3/8 × 56 = 21 boys
Scale / Similarity"On a map, 1 inch = 25 miles. Two cities are 3.5 inches apart."1/25 = 3.5/x → x = 87.5 miles
SECTION 6

Worked Example

Let's walk through an ACT-style problem step by step to see the full solution process in action.

PROBLEM

Step 1 — Identify the Ratio Parts

The ratio of red : blue : yellow is 2 : 5 : 3. This means for every 2 parts red, there are 5 parts blue and 3 parts yellow.
Red = 2 parts, Blue = 5 parts, Yellow = 3 parts

Step 2 — Find the Total Number of Parts

Add all parts of the ratio together: 2 + 5 + 3 = 10 total parts. This total represents the denominator when converting to a fraction of the whole.
Total parts = 10

Step 3 — Set Up the Proportion for Blue

Blue paint represents 5 out of 10 total parts. Set up the proportion: blue/total = 5/10 = x/40, where x is the number of liters of blue paint and 40 is the total liters needed.
5/10 = x/40

Step 4 — Cross-Multiply and Solve

Cross-multiply: 10 × x = 5 × 40, which gives 10x = 200. Divide both sides by 10 to isolate x.
x = 200 ÷ 10 = 20 liters of blue paint

Step 5 — Verify the Answer

If blue is 20 liters, then red = (2/10) × 40 = 8 liters and yellow = (3/10) × 40 = 12 liters. Check: 8 + 20 + 12 = 40 liters total. ✓ The ratio 8 : 20 : 12 simplifies to 2 : 5 : 3. ✓
Answer confirmed: 20 liters
✦ KEY TAKEAWAY
PRO TIP
SECTION 7

Common Pitfalls & ACT-Specific Tips

Understanding the math is only half the battle — you also need to avoid the traps the ACT sets. Below is a comparison of common mistakes and the correct approaches, followed by strategic tips that will help you work both accurately and efficiently.

Common mistakes on ACT ratio and proportion problems
Common MistakeWhy It's WrongCorrect Approach
Flipping the ratio orderWriting girls : boys when the problem says boys : girls reverses the comparison, giving the wrong answer.Label each quantity clearly: "boys/girls = 3/5" and keep the same order on both sides of the proportion.
Using part-to-part ratio as part-to-wholeIf boys : girls = 3 : 5, boys are NOT 3/5 of the class — they're 3/8.Always add ratio parts to get the whole before computing fractions of a total.
Mismatched units across the proportionPutting inches on the left numerator and miles on the right numerator creates nonsense.Stack the same unit on top of each fraction: inches/miles = inches/miles.
Forgetting to simplify the final answerACT answer choices may be in simplified form; an unsimplified answer won't match.Always reduce fractions and double-check that your numerical answer matches one of the five choices.
✦ KEY TAKEAWAY
TEST-DAY MINDSET
SECTION 8

Connections to Advanced Topics

Ratios and proportions aren't just a standalone topic — they're the foundation for many more advanced concepts you'll encounter on the ACT and in future math courses. The table below maps how this fundamental skill scales up into more complex areas.

How ratios and proportions connect to advanced ACT topics
Ratios & Proportions (This Lesson)Advanced ApplicationWhere It Shows Up
a/b = c/dSimilar Triangles — Corresponding sides of similar triangles form equal ratiosACT Geometry (≈10% of test)
Constant ratio k = y/xDirect Variation — y = kx, where k is the constant of proportionality (the slope)ACT Algebra, Coordinate Geometry
Part/Whole ratioProbability — P(event) = favorable outcomes / total outcomes is a part-to-whole ratioACT Statistics & Probability
Unit conversion via proportionsDimensional Analysis — Chaining conversion factors is repeated proportion-solvingACT Science, College Chemistry/Physics
opposite/hypotenuse as a ratioTrigonometric Ratios — sin, cos, tan are ratios of triangle sidesACT Trigonometry (≈7% of test)

As you can see, mastering ratios and proportions gives you a head start on roughly 20–25% of all ACT Math questions that rely on proportional reasoning in some form. When you study similar triangles, trigonometry, or probability later, you'll find that the cross-multiplication technique you learned here transfers directly. The only difference is that the quantities being compared become more specific — side lengths, angles, or outcomes — but the underlying algebraic structure is identical.

SECTION 9

Practice Problems

Test your understanding with these five problems arranged from conceptual to challenging. Try each one on your own before reading the answer.

PROBLEM 1 — CONCEPTUAL
A recipe calls for flour and sugar in the ratio 4 : 1. Which of the following statements is true? (A) There is 4 times as much sugar as flour. (B) There is 4 times as much flour as sugar. (C) Flour makes up 1/4 of the mixture. (D) Sugar makes up 1/4 of the mixture. (E) The total mixture contains exactly 4 parts.
PROBLEM 2 — BASIC CALCULATION
If 8 notebooks cost $14.00, how much would 14 notebooks cost at the same rate?
PROBLEM 3 — INTERMEDIATE
In a class of 45 students, the ratio of students who passed an exam to those who did not pass is 7 : 2. How many students did NOT pass?
PROBLEM 4 — APPLIED
On a map, 2.5 centimeters represents 15 kilometers. Two towns are 42 kilometers apart in real life. What is the distance between them on the map, in centimeters?
PROBLEM 5 — CRITICAL THINKING
A solution is made by mixing acid and water in the ratio 3 : 7. A chemist has 50 liters of this solution and wants to add more acid so that the new ratio of acid to water becomes 1 : 1. How many liters of acid must be added?
SUMMARY

Lesson Summary

Varsity Tutors • ACT Math • Ratios & Proportions