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Similar and Congruent Triangles

Use AA, SSS and SAS criteria and corresponding-parts proportions.

SAT Math Geometry & Trigonometry 6 worked questions

Concept notes

Similar and Congruent Triangles is one of the foundational skills tested in the Geometry & Trigonometry section of SAT Math. Use AA, SSS and SAS criteria and corresponding-parts proportions. This page walks you through the core idea, common variations you can expect to see on test day, and pitfalls that drop the average student a band.

On SAT Math, questions in Geometry & Trigonometry tend to reward students who can move quickly between symbolic and verbal forms of the same idea. Examiners often disguise Similar and Congruent Triangles inside word problems, multi-step algebra, or geometry diagrams, so practising it in isolation here will pay off when it appears as a sub-step inside a harder problem.

How to think about it

Start every Similar and Congruent Triangles problem by identifying what the question is actually asking for. Re-state it in your own words before you write a single equation. Then translate the situation into the cleanest mathematical form available — usually one equation, one inequality, or one diagram. Solve, then sanity-check by substituting your answer back into the original setup. The College Board and ACT both reward students who avoid careless slips far more than they reward speed.

If the problem feels long, don't panic. Almost every Geometry & Trigonometry question can be reduced to a one- or two-step manipulation once you see the structure. The fastest students aren't the ones who compute fastest; they're the ones who recognise the structure fastest.

Common mistakes to avoid

  • Skipping the read. Most wrong answers on Similar and Congruent Triangles questions come from misreading a word like 'at most', 'exactly' or 'inclusive'. Underline the constraint before you start.
  • Mismatching units. If the problem gives you minutes and asks for hours, convert before you set up the equation, not at the end.
  • Forgetting the −1 multiplier. Distributing a negative across parentheses is the single most common algebra slip on the SAT and ACT.
  • Not checking endpoints. Inequalities and absolute-value problems frequently have one valid endpoint and one extraneous one. Always test.

Test-day tips

For SAT Math, allow yourself roughly 1 minute 15 seconds per question on average. If a Similar and Congruent Triangles question is taking longer than two minutes, mark it, take your best guess, and come back. There is no penalty for guessing on either test, so never leave a bubble blank.

Students who score in the top 10% on Geometry & Trigonometry almost always do the same three things: they write neat work in the booklet, they read every answer choice before selecting one, and they verify with a quick estimate. Build those habits in the practice questions below.

The six practice problems on this page mirror the difficulty mix you can expect from a real SAT Math section: two easier warm-ups, two medium calibration questions, and two harder problems that combine Similar and Congruent Triangles with another idea from Geometry & Trigonometry. Work each one with paper and pen before opening the worked solution.

Tip: Skim the notes once, attempt the questions below with paper and pen, then open the worked solutions. Reading solutions before attempting feels productive but builds almost no recall.

Worked example problems

Six questions calibrated to the difficulty mix of the real test — two easy, two medium, two hard. Each comes with a fully worked step-by-step solution.

Question 1 of 6 Easy

A right triangle has legs of length 6 and 8. What is the length of the hypotenuse?

  1. A. 11
  2. B. 14
  3. C. 2
  4. D. 10
Show worked solution

Apply a² + b² = c²: + = 100.

c = √100 = 10.

Answer: D  ·  10

Question 2 of 6 Easy

What is the area of a circle with radius 7?

  1. A. 98π
  2. B. 49π
  3. C. 14π
  4. D. 14π
Show worked solution

A = πr² with r = 7.

A = π · = 49π.

Answer: B  ·  49π

Question 3 of 6 Medium

Find the area of a triangle with base 10 and height 13.

  1. A. 130
  2. B. 66
  3. C. 23
  4. D. 65
Show worked solution

A = ½ · b · h = ½ · 10 · 13 = 65.

Answer: D  ·  65

Question 4 of 6 Medium

A rectangular box has length 8, width 5, and height 5. What is its volume?

  1. A. 18
  2. B. 206
  3. C. 200
  4. D. 210
Show worked solution

V = l · w · h = 8 · 5 · 5 = 200.

Answer: C  ·  200

Question 5 of 6 Hard

Two angles of a triangle measure and . What is the measure of the third angle?

  1. A. 51°
  2. B. 129°
  3. C. 107°
  4. D. 124°
Show worked solution

Triangle interior angles sum to 180°.

Third angle = 180° − − = .

Answer: A  ·  51°

Question 6 of 6 Hard

In a right triangle, the side opposite angle θ has length 10 and the side adjacent to θ has length 6. What is tan(θ)?

  1. A. 6/10
  2. B. 10/16
  3. C. 11.661903789691/10
  4. D. 10/6
Show worked solution

Recall SOH-CAH-TOA: sin = opp/hyp, cos = adj/hyp, tan = opp/adj.

Hypotenuse = √( + ) = √136.

tan(θ) = 10/6.

Answer: D  ·  10/6

Where this topic appears on the test

Topics like Similar and Congruent Triangles appear on most recent SAT Math sittings, sometimes as a standalone question and sometimes as a sub-step inside a longer problem. Browse the past paper index to see where it has appeared recently and re-attempt the question with the worked solution open.

For the formulas you'll need on test day, see our Geometry & Trigonometry formula sheet. To plan a study path that targets your current score, jump to the score-band guides.