The Mathematics Level 2 Subject Test covers the same material as the Mathematics Level 1 test — with the addition of trigonometry and elementary functions (precalculus). If you performed well in these courses, taking this test gives you the opportunity to highlight your abilities and showcase your interest in higher-level mathematics.
- Offered in August, October, November, December, May, and June.
- Calculator use permitted. See calculator policy, including what calculators are acceptable.
Scoring, Timing, Number of Questions
|200-800||60||50 (Multiple Choice)|
Getting Ready for the Test
- Number and operations
- Algebra and functions
- Geometry and measurement (coordinate, three-dimensional, and trigonometry)
- Data analysis, statistics and probability
- More than three years of college-preparatory mathematics, including two years of algebra, one year of geometry, and elementary functions (precalculus) or trigonometry or both
Topics on the Test
|Content||Approximate % of Test|
Number and operations
Algebra and functions
Geometry and measurement
Coordinate: Lines, parabolas, circles, ellipses, hyperbolas, symmetry, transformations, polar coordinates
Three-dimensional: Solids, surface area and volume (cylinders, cones, pyramids, spheres, prisms), coordinates in three dimensions
Trigonometry: Right triangles, identities, radian measure, law of cosines, law of sines, equations, double angle formulas
Data analysis, statistics, and probability
Download the SAT Subject Tests Student Guide (.pdf/6.3MB) for more information on the topics.
Practice online for free:
Download for free:
- The SAT Subject Tests Student Guide (.pdf/6.3MB) contains information on all 20 SAT Subject Tests, official sample questions, test-taking tips and approaches and more.
- Answer Explanations to the Mathematics Level 2 Practice Questions (.pdf/783KB).
Buy at the bookstore:
The Official SAT Subject Tests in Mathematics Levels 1 & 2 Study Guide
This guide helps students decide which Math Subject Test to take and the best time to take it. Features include:
- Two full-length, previously administered Mathematics Level 1 Subject Tests
- Two full-length, previously administered Mathematics Level 2 Subject Tests
- Detailed answer explanations for all test questions
- Exclusive test taking-tips and approaches, including information on calculator usage
The Official Study Guide for All SAT Subject Tests, Second Edition
Get the only study guide available for all 20 SAT Subject Tests.
- 20 full-length, previously administered Subject Tests
- Detailed answer explanations for all test questions
- The most up-to-date tips and approaches on selecting which tests to take, the best time to take the tests, and how to best be ready for test day
- The latest versions of the instructions, background questions and answer sheet
- Detailed descriptions of every Subject Test, including topics covered and recommended course work
- Two audio CDs for all six Language with Listening Tests
Additional Things to Know
Choosing Between Math Levels 1 and 2
If you have taken trigonometry or elementary functions (precalculus) or both, received grades of B or better in these courses, and are comfortable knowing when and how to use a scientific or graphing calculator, you should select the Level 2 test. If you are sufficiently prepared to take Level 2, but elect to take Level 1 in hopes of receiving a higher score, you may not do as well as you expect. You may want to consider taking the test that covers the topics you learned most recently, since the material will be fresh in your mind. You should also consider the requirements of the colleges and programs you are interested in.
Areas of Overlap on Math Level 1 and Math Level 2
The content of Level 1 has some overlap with Level 2, especially in the following areas:
- Elementary algebra
- Three-dimensional geometry
- Coordinate geometry
- Basic trigonometry
How Test Content Differs
Although some questions may be appropriate for both tests, the emphasis for Level 2 is on more-advanced content. The tests differ significantly in the following areas:
- Number and Operations. Level 1 measures a more basic understanding of the topics than Level 2. For example, Level 1 covers the arithmetic of complex numbers, but Level 2 also covers graphical and other properties of complex numbers. Level 2 also includes series and vectors.
- Algebra and Functions. Level 1 contains mainly algebraic equations and functions, whereas Level 2 also contains more advanced equations and functions, such as exponential, logarithmic and trigonometric.
- Geometry and Measurement. A significant percentage of the questions on Level 1 is devoted to plane Euclidean geometry and measurement, which is not tested directly on Level 2. On Level 2, the concepts learned in plane geometry are applied in the questions on coordinate geometry and three-dimensional geometry. The trigonometry questions on Level 1 are primarily limited to right triangle trigonometry (sine, cosine, tangent) and the fundamental relationships among the trigonometric ratios. Level 2 includes questions about ellipses, hyperbolas, polar coordinates and coordinates in three dimensions. The trigonometry questions on Level 2 place more emphasis on the properties and graphs of trigonometric functions, the inverse trigonometric functions, trigonometric equations and identities, and the laws of sines and cosines.
- Data Analysis, Statistics and Probability. Both Level 1 and Level 2 include mean, median, mode, range, interquartile range, data interpretation and probability. Level 2 also includes standard deviation. Both include least-squares linear regression, but Level 2 also includes quadratic and exponential regression.
Seek advice from your high school math teacher if you are still unsure of which test to take. Keep in mind you can choose to take either test on test day, regardless of what test you registered for.
Please note that these tests reflect what is commonly taught in high school. Due to differences in high school classes, it’s likely that most students will find questions on topics they’re not familiar with. This is nothing to worry about. You do not have to get every question correct to receive the highest score (800) for the test. Many students do well despite not having studied every topic covered.
The following information is for your reference in answering some of the questions in this test:
Volume of a right circular cone with radius and height :
Volume of a sphere with radius :
Volume of a pyramid with base are and height :
Surface Area of a sphere with radius :
Using Your Calculator to Solve Problems
- Think about how you are going to solve the question before picking up your calculator. It may be that you only need the calculator for the final step or two and can do the rest in your test book or in your head. Don’t waste time by using the calculator more than necessary. For about half of the questions, there’s no advantage, or perhaps even a disadvantage, to using a calculator. For the other half of the questions, a calculator may be useful or necessary.
- Read the question carefully so that you know what you are being asked to do. Sometimes a result that you may get from your calculator is NOT the final answer. If an answer you get is not one of the choices in the question, it may be that you didn’t answer the question being asked. You should read the question again. It may also be that you rounded at an intermediate step in solving the problem, and that’s why your answer doesn’t match any of the choices in the question.
- The answer choices are often rounded, so the answer you get might not match the answer in the test book. Since the choices are rounded, plugging the choices into the problem might not produce an exact answer.
- Don’t round any intermediate calculations. For example, if you get a result from the calculator for the first step of a solution, keep the result in the calculator and use it for the second step. If you round the result from the first step and the answer choices are close to each other, you might have a problem.
- Bring a calculator that you are used to using. It may be a scientific or a graphing calculator, but if you’re comfortable with both, bring a graphing calculator. The most important consideration is your comfort level with the calculator. Test day is not the time to start learning how to use a new calculator, even if it has more capabilities.
- Verify that your calculator is in good working condition before you take the test. You may bring batteries and a backup calculator to the test center. Remember, no substitute calculators or batteries will be available at the test center. You can’t share calculators with other test takers.
- If you are taking the Mathematics Level 1 test, make sure your calculator is in degree mode ahead of time so you won’t have to worry about it during the test.
- If your calculator malfunctions at the test center, and you don’t have a backup calculator, you must tell your test supervisor when the malfunction occurs. You can choose to cancel your scores on the test.
- If you are using a calculator with large characters (one inch high or more) or a calculator with a raised display that might be visible to other test takers, you will be seated at the discretion of the test supervisor.
- You may not use your calculator for sharing or exchanging, or removing part of a test book or any notes relating to the test from the test room. Such action may be grounds for dismissal, cancellation of scores or both. You do not have to clear your calculator’s memory before or after taking the test.
Questions on Geometric Figures
Figures that accompany problems are intended to provide information useful in solving the problems. They are drawn as accurately as possible except when it is stated in a particular problem that the figure is not drawn to scale. Even when figures are not drawn to scale, the relative positions of points and angles may be assumed to be in the order shown. Also, line segments that extend through points and appear to lie on the same line may be assumed to be on the same line. The text “Note: Figure not drawn to scale.” is included on the figure when degree measures may not be accurately shown and specific lengths may not be drawn proportionally.