2024 AMC 10A Real Questions and Analysis

In this article, you’ll find:

• Representative real questions from each module with detailed solutions.
• The complete 2024 AMC 10A Answer Key.
• The best resources to prepare effectively for the AMC 10.
• A concise topic distribution chart showing which areas appeared most in the 2024 AMC 10A.
• A module-to-question mapping table highlighting the core concepts tested in each module for the 2024 AMC 10A.

Real Questions and Solutions Explained

Algebra / Arithmetic Reasoning Example – Problem 8

Question:

Amy, Bomani, Charlie, and Daria work in a chocolate factory. On Monday Amy, Bomani, and Charlie started working at 1:00 PM and were able to pack 4, 3, and 3 packages, respectively, every 3 minutes. At some later time, Daria joined the group and was able to pack 5 packages every 4 minutes. Together, they finished 450 packages at exactly 2:45 PM. At what time did Daria join the group?

(A) 1:25 PM (B) 1:35 PM (C) 1:45 PM (D) 1:55 PM (E) 2:05 PM

Solution:

Total time from 1:00 PM to 2:45 PM is 105 minutes.

Rate of Amy + Bomani + Charlie: \(\frac{4+3+3}{3}=\frac{10}{3}=3.\overline{3}\ \text{packages/min.}\)

Rate of Daria: \(\frac{5}{4}=1.25\ \text{packages/min.}\)

Let \(t\) be the number of minutes Daria worked. Then the first \(105-t\) minutes were done by 3 workers, and the last \(t\) minutes by 4 workers: \((105-t)\left(\frac{10}{3}\right)+t\left(\frac{10}{3}+\frac{5}{4}\right)=450.\)

Simplify: \(350-3.33t+4.58t=450\Rightarrow1.25t=100\Rightarrow t=80.\)

Daria worked 80 minutes, so she joined after \(105-80=25\) minutes → 1:25 PM.

Answer (A)

Common Mistakes:

• Forgetting to convert “every 3 min” to “per minute.”
• Assuming all workers started together.
• Arithmetic rounding between fractional and decimal rates.
• Ignoring that total time is 105 min, not 1 hr 45 s.

Number Theory Example – Problem 5

Question:

What is the least value of 𝑛 such that 𝑛! is a multiple of 2024?

(A) 11 (B) 21 (C) 22 (D) 23 (E) 253

Solution:

Ignoring the largest prime factor 23.
Using 22 instead of 23.
Misfactorizing 2024 as \(2^4\times127\).

Answer (D)

Common Mistakes:

• Ignoring the largest prime factor 23.
• Using 22 instead of 23.
• Misfactorizing 2024 as \(2^4\times127\)

Geometry Example – Problem 13

Question:

Two transformations commute if applying them in either order gives the same result.

Consider the four transformations below on the coordinate plane:

1. Translation 2 units right
2. 90° rotation counterclockwise about the origin
3. Reflection across the 𝑥-axis
4. Dilation about the origin by scale factor 2

Of the 6 distinct pairs of transformations, how many commute?

(A) 1 (B) 2 (C) 3 (D) 4 (E) 5

Solution:

Translation & Reflection across \(x\)-axis: commute. \(F(T(x,y))=(x+2,-y)=T(F(x,y))\)
Rotation & Dilation: commute (both origin-centered linear maps).
Reflection & Dilation: commute (scaling then reflecting or vice versa).
Others do not commute.
Total = 3 pairs.

Answer (C)

Common Mistakes:

• Thinking all transformations commute.
• Forgetting rotation & translation centers differ.
• Misapplying matrix multiplication order.

Counting & Probability Example – Problem 9

Question:

Six juniors and six seniors form three disjoint teams of four people each, each team having 2 juniors and 2 seniors. How many distinct ways are possible?

(A) 720 (B) 1350 (C) 2700 (D) 3280 (E) 8100

Solution:

Pair the 6 juniors into 3 unordered pairs: \(\frac{6!}{(2!)^3\,3!}=15.\)
Pair the 6 seniors similarly: 15.
Match each junior pair with a senior pair: \(3!=6.\)
Total = \(15\times15\times6=1350.\)

Answer (B)

Common Mistakes:

• Dividing again by \(3!\) (teams already unlabeled).
• Treating teams as ordered.
• Pairing individuals directly instead of pairs, causing overcount.

2024 AMC 10A Answer Key

Question	Number
1	A
2	B
3	B
4	B
5	D
6	D
7	B
8	A
9	B
10	C
11	D
12	E
13	C
14	D
15	E
16	D
17	E
18	D
19	E
20	C
21	C
22	B
23	D
24	B
25	C

AMC 10 Past Exam Solutions & Knowledge Packs

Think Academy provides downloadable AMC 10 past exams, full worked solutions, and AR/HR Knowledge Point practice sets to help students learn deeply — not just memorize.

Why Past Exams Matter

• Reveal recurring patterns and concept frequency
• Strengthen logical reasoning + problem-solving skills
• Build confidence heading into real competition day

Don’t just read — start mastering the AMC 10 now!

Last 10 Years AMC 10 Real Questions and Analysis

Think Academy provides in-depth breakdowns of the past decade of AMC 10 exams. Click below to explore:

• Year-by-year topic trend insights and concept distributions

• Real AMC 10 exams from the last 10 years

• Official answer keys

• Representative questions, detailed solutions, and common mistakes

AMC 10A	AMC 10B
2024 AMC 10A	2024 AMC10B
2023 AMC 10A	2023 AMC10B
2022 AMC 10A	2022 AMC10B
2021 AMC 10A	2021 AMC10B
2020 AMC 10A	2020 AMC10B
2019 AMC 10A	2019 AMC10B
2018 AMC 10A	2018 AMC10B
2017 AMC 10A	2017 AMC10B
2016 AMC 10A	2016 AMC10B

2024 AMC 10A Topic Distribution

The 2024 AMC 10A featured 25 questions to be completed in 75 minutes, emphasizing advanced problem-solving and proof-based reasoning skills.

Learn more about AMC 10 Format and Scoring Here: AMC 10 FAQ and Resources: Your Ultimate Guide

Detailed Module Analysis

Module	Question Numbers	What It Tests (Brief)
Algebra (+ Arithmetic Reasoning)	1, 2, 4, 8, 10, 12, 15, 21	Linear and quadratic equations, systems, ratios, patterns, word problems, and functional relationships.
Number Theory	3, 5, 7, 11, 18, 19, 23	Divisibility, remainders, modular arithmetic, prime factorization, Diophantine equations, and integer reasoning.
Geometry	13, 14, 16, 22	Triangles and similarity, circle tangents, area ratios, and coordinate geometry proofs.
Counting & Probability / Combinatorics	6, 9, 17, 20, 24, 25	Permutations, combinations, symmetry counting, probability cases, and logical enumeration.

About Think Academy

At Think Academy, a subsidiary of TAL Education Group, we specialize in advanced coaching and rigorous preparation for math competitions, including AMC 10 and AIME. Guided by experienced educators and supported by partnerships with renowned institutions, Think Academy empowers high-school students to reach their full competitive potential in mathematics. Notably, in 2024, our students achieved exceptional recognition, including selections for prestigious programs such as USA(J)MO (17 students), the Mathematical Olympiad Program (3 students), and the International Mathematical Olympiad teams for the U.S. and South Africa. Explore our AMC 10 training programs to help your child excel.

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