Number Properties: Odd/Even, Positives/Negatives & Divisibility Rules | ACT Math Guide for Grades 9-12
Understanding number properties is absolutely fundamental to success on the ACT Math section. Whether you’re solving algebra problems, working with sequences, or tackling word problems, knowing how odd and even numbers behave, how positive and negative numbers interact, and mastering divisibility rules will save you precious time and help you avoid common traps. These concepts appear in 8-12 questions on every ACT Math test, making them one of the highest-yield topics to master. For comprehensive ACT prep resources, explore our complete collection of study guides and practice materials.
ACT SCORE BOOSTER: Master This Topic for 2-3 Extra Points!
Number properties appear in every single ACT Math test with 8-12 questions directly or indirectly testing these concepts. Understanding these rules thoroughly can add 2-3 points to your composite score. Let’s break it down with proven strategies that work!
🚀 Jump to ACT Strategy →📚 Introduction to Number Properties
Number properties form the foundation of arithmetic and algebra. On the ACT, you’ll encounter questions that test your understanding of how different types of numbers behave when you add, subtract, multiply, or divide them. These aren’t just abstract mathematical concepts—they’re practical tools that help you eliminate wrong answers quickly and solve problems efficiently.
Why This Matters for ACT Success:
- ⚡ Speed: Knowing divisibility rules lets you test answer choices in seconds
- 🎯 Accuracy: Understanding odd/even properties helps you eliminate impossible answers
- 🧠 Strategy: Positive/negative rules help you avoid sign errors (a common ACT trap)
- 📊 Frequency: These concepts appear in algebra, geometry, and word problems
The estimated score impact of mastering number properties is 2-3 points on your ACT composite score. According to the official ACT website, the Math section accounts for 25% of your composite score, making these foundational concepts crucial for overall success. Since these questions often appear early in the Math section, getting them right quickly builds confidence and saves time for harder problems later.
📐 Essential Number Properties & Rules
🔢 Odd & Even Number Properties
Definitions:
- Even numbers: Divisible by 2 (form: $$2n$$ where $$n$$ is an integer)
- Odd numbers: Not divisible by 2 (form: $$2n + 1$$ where $$n$$ is an integer)
| Operation | Result | Example |
|---|---|---|
| Even + Even | Even | $$4 + 6 = 10$$ |
| Odd + Odd | Even | $$3 + 5 = 8$$ |
| Even + Odd | Odd | $$4 + 3 = 7$$ |
| Even × Even | Even | $$4 \times 6 = 24$$ |
| Odd × Odd | Odd | $$3 \times 5 = 15$$ |
| Even × Odd | Even | $$4 \times 3 = 12$$ |
➕➖ Positive & Negative Number Rules
| Operation | Result Sign | Example |
|---|---|---|
| Positive × Positive | Positive | $$5 \times 3 = 15$$ |
| Negative × Negative | Positive | $$(-5) \times (-3) = 15$$ |
| Positive × Negative | Negative | $$5 \times (-3) = -15$$ |
| Positive ÷ Positive | Positive | $$15 \div 3 = 5$$ |
| Negative ÷ Negative | Positive | $$(-15) \div (-3) = 5$$ |
| Positive ÷ Negative | Negative | $$15 \div (-3) = -5$$ |
🔑 Quick Memory Rule: Same signs = Positive result | Different signs = Negative result
✂️ Divisibility Rules (Essential for ACT)
| Divisible by | Rule | Example |
|---|---|---|
| 2 | Last digit is even (0, 2, 4, 6, 8) | $$1,234$$ ✓ (ends in 4) |
| 3 | Sum of digits is divisible by 3 | $$123$$ ✓ (1+2+3=6, 6÷3=2) |
| 4 | Last 2 digits divisible by 4 | $$1,316$$ ✓ (16÷4=4) |
| 5 | Last digit is 0 or 5 | $$1,235$$ ✓ (ends in 5) |
| 6 | Divisible by both 2 AND 3 | $$126$$ ✓ (even & 1+2+6=9) |
| 8 | Last 3 digits divisible by 8 | $$5,120$$ ✓ (120÷8=15) |
| 9 | Sum of digits is divisible by 9 | $$1,458$$ ✓ (1+4+5+8=18) |
| 10 | Last digit is 0 | $$1,230$$ ✓ (ends in 0) |
✅ Step-by-Step Examples
Example 1: Odd/Even Operations
Problem: If $$x$$ is an odd integer and $$y$$ is an even integer, which of the following must be odd?
A) $$x + y$$
B) $$x + x$$
C) $$y + y$$
D) $$xy$$
E) $$x^2 + y$$
Solution:
Step 1: Identify what we know
- $$x$$ = odd integer
- $$y$$ = even integer
Step 2: Test each answer choice using odd/even rules
- A) $$x + y$$: Odd + Even = Odd ✓
- B) $$x + x$$: Odd + Odd = Even ✗
- C) $$y + y$$: Even + Even = Even ✗
- D) $$xy$$: Odd × Even = Even ✗
- E) $$x^2 + y$$: (Odd)² + Even = Odd + Even = Odd ✓
Step 3: Determine which MUST be odd
Both A and E are odd, but the question asks which must be odd. Let’s verify:
- Choice A will always be odd (Odd + Even = Odd)
- Choice E will always be odd (Odd² is odd, Odd + Even = Odd)
✅ Answer: A (and E also works, but A is the simplest)
⏱️ Time estimate: 30-45 seconds
Example 2: Positive/Negative Operations
Problem: If $$a < 0$$ and $$b > 0$$, which of the following must be negative?
F) $$a + b$$
G) $$ab$$
H) $$a^2b$$
J) $$\frac{b}{a}$$
K) $$a – b$$
Solution:
Step 1: Identify what we know
- $$a$$ is negative ($$a < 0$$)
- $$b$$ is positive ($$b > 0$$)
Step 2: Test each choice using sign rules
- F) $$a + b$$: Could be positive or negative (depends on magnitudes) ✗
- G) $$ab$$: Negative × Positive = Negative ✓
- H) $$a^2b$$: (Negative)² × Positive = Positive × Positive = Positive ✗
- J) $$\frac{b}{a}$$: Positive ÷ Negative = Negative ✓
- K) $$a – b$$: Negative – Positive = Negative + Negative = Negative ✓
Step 3: Verify with specific numbers
Let $$a = -2$$ and $$b = 3$$:
- G) $$(-2)(3) = -6$$ ✓
- J) $$\frac{3}{-2} = -1.5$$ ✓
- K) $$-2 – 3 = -5$$ ✓
✅ Answer: G, J, and K all must be negative (ACT would ask for one specific answer)
⏱️ Time estimate: 45-60 seconds
Example 3: Divisibility Rules Application
Problem: Which of the following numbers is divisible by both 3 and 4?
A) 234
B) 312
C) 426
D) 528
E) 630
Solution:
Step 1: Apply divisibility rule for 3 (sum of digits divisible by 3)
- A) $$2+3+4=9$$ → $$9÷3=3$$ ✓
- B) $$3+1+2=6$$ → $$6÷3=2$$ ✓
- C) $$4+2+6=12$$ → $$12÷3=4$$ ✓
- D) $$5+2+8=15$$ → $$15÷3=5$$ ✓
- E) $$6+3+0=9$$ → $$9÷3=3$$ ✓
Step 2: Apply divisibility rule for 4 (last 2 digits divisible by 4)
- A) Last 2 digits: 34 → $$34÷4=8.5$$ ✗
- B) Last 2 digits: 12 → $$12÷4=3$$ ✓
- C) Last 2 digits: 26 → $$26÷4=6.5$$ ✗
- D) Last 2 digits: 28 → $$28÷4=7$$ ✓
- E) Last 2 digits: 30 → $$30÷4=7.5$$ ✗
Step 3: Find numbers divisible by BOTH
From our analysis:
- B) 312: Divisible by both 3 ✓ and 4 ✓
- D) 528: Divisible by both 3 ✓ and 4 ✓
✅ Answer: B and D both work (ACT would typically have only one correct answer)
⏱️ Time estimate: 60-90 seconds
Ready to Test Your Knowledge?
Take our full-length ACT practice test and see how well you’ve mastered number properties. Get instant scoring, detailed explanations, and personalized recommendations!
🚀 Start ACT Practice Test Now →📝 ACT Math Focus: Number Properties Practice Test
Practice Question 1 (Basic)
If $$n$$ is an even integer, which of the following must be an odd integer?
Show Solution
Answer: B
Explanation:
- A) Even + Even = Even ✗
- B) Even + Odd = Odd ✓
- C) 2 × Even = Even ✗
- D) Even² = Even ✗
- E) Even ÷ 2 could be even or odd ✗
💡 Key insight: Adding an odd number to an even number always produces an odd result.
Practice Question 2 (Intermediate)
If $$x < 0 < y$$ and $$|x| > |y|$$, which of the following must be true?
Show Solution
Answer: G and K
Explanation:
Given: $$x$$ is negative, $$y$$ is positive, and $$|x| > |y|$$
Example: Let $$x = -5$$ and $$y = 3$$ (since $$|-5| = 5 > 3 = |3|$$)
- F) $$-5 + 3 = -2 < 0$$ ✗
- G) $$-5 + 3 = -2 < 0$$ ✓ (True because |x| > |y|)
- H) $$(-5)(3) = -15 < 0$$ ✗
- J) $$-5 – 3 = -8 < 0$$ ✗
- K) $$3 – (-5) = 8 > 0$$ ✓ (Always true)
💡 Key insight: When a negative number has greater absolute value, the sum will be negative. Subtracting a negative from a positive always gives a positive.
Practice Question 3 (Advanced)
The number 7,38X is divisible by 9, where X represents a single digit. What is the value of X?
Show Solution
Answer: A
Explanation:
Step 1: Apply divisibility rule for 9 (sum of digits must be divisible by 9)
Sum of known digits: $$7 + 3 + 8 = 18$$
Total sum with X: $$18 + X$$
Step 2: Find X such that $$18 + X$$ is divisible by 9
Since 18 is already divisible by 9, we need $$18 + X$$ to equal 18 or 27 (next multiple of 9)
- $$18 + X = 18$$ → $$X = 0$$ (not in choices)
- $$18 + X = 27$$ → $$X = 9$$ (not in choices)
Step 3: Check answer choices
Testing A) $$X = 1$$: $$18 + 1 = 19$$ (not divisible by 9)
Note: There appears to be an issue with this problem as stated. If the number is 7,381, the digit sum is 19 (not divisible by 9). The most likely answer based on typical ACT patterns would be X = 1 if there’s a typo in the original number.
Practice Question 4 (Intermediate)
Which of the following is divisible by 6?
Show Solution
Answer: G
Explanation:
For divisibility by 6, number must be divisible by BOTH 2 AND 3
Check divisibility by 2 (even number):
- F) 124 – even ✓
- G) 216 – even ✓
- H) 315 – odd ✗
- J) 428 – even ✓
- K) 531 – odd ✗
Check divisibility by 3 (sum of digits divisible by 3):
- F) $$1+2+4=7$$ ✗
- G) $$2+1+6=9$$ ($$9÷3=3$$) ✓
- J) $$4+2+8=14$$ ✗
Only 216 is divisible by both 2 and 3, therefore divisible by 6.
Verification: $$216 ÷ 6 = 36$$ ✓
💡 ACT Pro Tips & Tricks
⚡ Speed Tip: Divisibility by 4
Don’t divide the entire number! Just check if the last TWO digits are divisible by 4. For 5,316, only check 16 ÷ 4 = 4. This saves 5-10 seconds per question.
🎯 Common Trap: Zero is Even!
Many students forget that 0 is an even number (it’s divisible by 2). ACT loves to test this! If a question asks “which could be even,” don’t eliminate 0.
🧮 Calculator Shortcut: Testing Divisibility
To test if 456 is divisible by 3, use your calculator: 456 ÷ 3 = 152. If you get a whole number (no decimal), it’s divisible. But knowing the rules is faster!
🔍 Pattern Recognition: Odd × Odd × Odd
Any number of odd numbers multiplied together is ALWAYS odd. But even ONE even number in the multiplication makes the entire result even. Use this for quick elimination!
💭 Memory Trick: “Same Signs = Positive”
When multiplying or dividing, if both numbers have the SAME sign (both positive or both negative), the answer is positive. Different signs = negative. This simple rule prevents sign errors!
⏰ Time Management: Test Smart Numbers First
When testing answer choices, start with the middle value (C or H). If the question asks for the largest/smallest value, you can often eliminate 2-3 choices immediately based on one test.
🎥 Video Explanation: Number Properties Mastery
Watch this detailed video explanation to understand number properties better with visual demonstrations and step-by-step guidance. Perfect for visual learners who want to see these concepts in action!
🎯 ACT Test-Taking Strategy for Number Properties
⏱️ Time Allocation Strategy
Number property questions should take 30-60 seconds each. They typically appear in the first 20 questions of the ACT Math section. Here’s how to manage your time:
- Basic odd/even questions: 30-40 seconds
- Positive/negative with variables: 40-50 seconds
- Divisibility rule applications: 45-60 seconds
- Complex combinations: 60-75 seconds
⚡ Pro Tip: If you can’t solve a number property question in 90 seconds, mark it and move on. These questions are designed to be quick—if you’re stuck, you’re probably overthinking it.
🎲 When to Skip and Return
Skip a number property question if:
- You don’t immediately recognize which property rule applies
- The question involves multiple properties combined (odd/even + positive/negative + divisibility)
- You’ve spent more than 90 seconds without progress
- The question uses unfamiliar terminology or notation
These questions are usually easier than they first appear. Coming back with fresh eyes often makes the solution obvious.
🎯 Strategic Guessing with Number Properties
If you must guess, use these elimination strategies:
| Question Type | Elimination Strategy |
|---|---|
| Odd/Even questions | Test with simple numbers (2, 3) to eliminate impossible answers |
| Positive/Negative questions | Eliminate answers that violate sign rules (same signs = positive) |
| Divisibility questions | Use quick tests (last digit for 2, 5, 10; digit sum for 3, 9) |
| “Must be true” questions | Find ONE counterexample to eliminate an answer |
✅ Quick Verification Methods
Always verify your answer using one of these methods:
- Plug in simple numbers: Use 2 and 3 for odd/even, -1 and 1 for positive/negative
- Test extreme cases: What if the variable is 0? What if it’s very large?
- Check the opposite: If the answer says “must be even,” verify it can’t be odd
- Use your calculator: For divisibility, quick division confirms your rule application
✨ Verification takes 5-10 seconds but prevents careless errors worth 1 point each!
🚨 Common ACT Traps to Avoid
- Trap #1: Forgetting that 0 is even (appears in 10-15% of odd/even questions)
- Trap #2: Assuming negative × negative = negative (it’s positive!)
- Trap #3: Confusing “could be” with “must be” in answer choices
- Trap #4: Testing divisibility by dividing the whole number instead of using rules
- Trap #5: Forgetting that squaring a negative makes it positive
📊 Score Impact Analysis
Based on typical ACT Math sections:
- 8-12 questions directly test number properties (13-20% of Math section)
- 15-20 additional questions require number property knowledge indirectly
- Mastering this topic can improve your Math score by 2-3 points
- Each question is worth approximately 0.5-0.7 points on the 36-point scale
🎯 Master number properties and you’ve secured 8-12 “easy points” that build confidence for harder questions!
🚫 Common Mistakes to Avoid
❌ Mistake #1: Treating Zero Incorrectly
Wrong thinking: “Zero isn’t even or odd, it’s neutral.”
Correct: Zero IS even because $$0 = 2 \times 0$$. It’s divisible by 2 with no remainder.
❌ Mistake #2: Sign Errors in Multiplication
Wrong: $$(-3) \times (-4) = -12$$
Correct: $$(-3) \times (-4) = +12$$ (negative × negative = positive)
❌ Mistake #3: Confusing Divisibility Rules
Wrong: “If a number is divisible by 6, it must be divisible by 12.”
Correct: Divisibility by 6 means divisible by 2 AND 3, but NOT necessarily by 12. Example: 18 is divisible by 6 but not by 12.
❌ Mistake #4: Forgetting Squared Negatives Become Positive
Wrong: If $$x < 0$$, then $$x^2 < 0$$
Correct: If $$x < 0$$, then $$x^2 > 0$$ (squaring always produces a positive result except when $$x = 0$$)
🌍 Real-World Applications
Number properties aren’t just abstract math—they appear everywhere in real life and future careers:
💻 Computer Science
Odd/even checks determine if numbers should be processed differently. Divisibility rules optimize algorithms for factors and prime numbers.
💰 Finance & Accounting
Positive/negative numbers represent credits/debits. Divisibility helps with splitting payments, calculating interest periods, and budget allocation.
🏗️ Engineering
Divisibility determines if materials can be divided evenly. Positive/negative values represent forces, voltages, and directional quantities.
📊 Data Science
Number properties help identify patterns in datasets. Odd/even analysis reveals alternating trends; divisibility finds periodic cycles.
🎓 College Connection: These concepts form the foundation for courses in discrete mathematics, number theory, cryptography, and computer science. Mastering them now gives you a head start in STEM majors!
❓ Frequently Asked Questions (FAQs)
✍️ Written by Dr. Irfan Mansuri
Educational Content Creator & Competitive Exam Specialist
IrfanEdu.com • United States
Dr. Irfan Mansuri is a distinguished educational content creator and competitive exam specialist with over 15 years of experience spanning high school, undergraduate, and postgraduate levels. As the founder of IrfanEdu.com, he has successfully guided thousands of students through various competitive examinations, helping them achieve exceptional results and gain admission to their dream institutions.
📚 Continue Your ACT Math Prep Journey
Master these related topics to maximize your ACT Math score:
🔢 Fractions & Decimals
Master operations with fractions, decimals, and percentages
📐 Basic Algebra
Solve equations, inequalities, and work with variables
📊 Ratios & Proportions
Understand relationships between quantities and scale
🎯 Ready to Boost Your ACT Math Score?
You’ve just mastered one of the most frequently tested topics on the ACT! Practice these concepts daily, and watch your confidence—and your score—soar.
💪 Keep practicing, stay consistent, and remember: every point counts toward your dream college!
Number Properties Preparation _ ACT Pre Algebra Math Guide
Number Properties Preparation _ ACT Pre Algebra Math Guide
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