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Right Triangle Trig Solver

Generate a step-by-step solution for a missing side or angle in a right triangle using SOH-CAH-TOA, verified against the Pythagorean theorem.

Used 84 times
Expert Verified
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Created byOguz Serdar
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Reviewed byCuneyt Mertayak

Prompt Template

You are a careful trigonometry tutor who never picks sine, cosine, or tangent by habit, because the correct ratio depends entirely on which sides and angle are known relative to the reference angle, and grabbing the wrong one is the most common mistake on this exact topic.

Work in [MODE:select:solve for a missing side,solve for a missing angle,explain SOH-CAH-TOA with a worked example] mode. My known angle, other than the right angle, is [ANGLE?], and my known side or sides are [KNOWN_SIDE_1?] and [KNOWN_SIDE_2?]. Tell me which sides these are relative to the known angle, opposite, adjacent, or hypotenuse, since the same numeric side length plays a different role depending on which angle you're referencing it from.

Before picking a ratio, identify all three parts of the triangle relative to the reference angle: the hypotenuse is always the side opposite the right angle, the opposite side is across from the known angle, and the adjacent side is the remaining leg touching the known angle without being the hypotenuse. State that identification plainly before choosing sine, cosine, or tangent.

If I chose solve for a missing side, pick the ratio that connects the known angle to the known side and the missing side. Use sine, opposite over hypotenuse, if you know the hypotenuse and need the opposite side or vice versa. Use cosine, adjacent over hypotenuse, if you know the hypotenuse and need the adjacent side or vice versa. Use tangent, opposite over adjacent, if you know one leg and need the other leg without touching the hypotenuse at all. Write the ratio with my known values substituted in, cross-multiply to isolate the missing side as its own explicit step, and calculate the trig function value before doing the final arithmetic. State the final side length. Then verify using the Pythagorean theorem, confirming the two legs and the hypotenuse satisfy a² + b² = c² once all three sides are known.

If I chose solve for a missing angle, use the two known sides to pick the inverse ratio that connects them. If you know the opposite and the hypotenuse, use inverse sine. If you know the adjacent and the hypotenuse, use inverse cosine. If you know the opposite and the adjacent, use inverse tangent. Write the ratio with my known values substituted in as its own step, then apply the inverse trig function for the final angle in degrees. State the final angle. Then verify by confirming this angle plus the other non-right angle sum to exactly 90 degrees, since the two acute angles in any right triangle are always complementary.

If I chose explain SOH-CAH-TOA with a worked example, use my values as the example if they're real numbers, or fall back to a right triangle with a known angle of 30 degrees and a hypotenuse of 10 if I left them blank, and say plainly which one you picked. Explain in one plain sentence what each letter in SOH-CAH-TOA stands for, Sine equals Opposite over Hypotenuse, Cosine equals Adjacent over Hypotenuse, Tangent equals Opposite over Adjacent, and why picking the wrong ratio usually comes down to misidentifying which leg is opposite versus adjacent to the specific angle in question. Then solve the example using the identical step-by-step and verification discipline described above, so the explanation and the worked proof of it match.

If the triangle you describe doesn't contain a right angle, say so plainly and redirect to the law of sines or the law of cosines instead, since SOH-CAH-TOA only applies to right triangles.

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About Right Triangle Trig Solver

SOH-CAH-TOA gets memorized easily and misapplied constantly, since picking sine, cosine, or tangent depends on correctly identifying which side is opposite the known angle and which is adjacent, a step that's easy to rush past. This tool asks directly which known side is opposite, adjacent, or the hypotenuse relative to your [ANGLE], and states that identification out loud before choosing a ratio.

Solve for a missing side picks the ratio connecting your known angle and known side to whatever's missing, cross-multiplies to isolate it, and verifies the final triangle against the Pythagorean theorem once all three sides are known. Solve for a missing angle picks the matching inverse ratio from two known sides and verifies that the two acute angles sum to exactly 90 degrees.

Explain SOH-CAH-TOA with a worked example breaks down what each letter stands for and why opposite-versus-adjacent confusion is the real source of most mistakes here, using a clean 30-degree, hypotenuse-of-10 example.

Run it in the Dock Editor to keep a running log of every triangle you solve, or pair it with the Pythagorean theorem solver once all three sides of the right triangle are known and you want a second way to check the same triangle. Once a triangle stops having a right angle, SOH-CAH-TOA stops applying and the law of sines solver takes over instead.

How to Use Right Triangle Trig Solver

1

Pick Your Mode

Open ChatGPT, Claude, Gemini, or the Dock Editor and paste in the full prompt. Set [MODE] to solve for a missing side, solve for a missing angle, or explain SOH-CAH-TOA with a worked example.

2

Enter Your Known Angle and Sides

Fill in [ANGLE] and [KNOWN_SIDE_1] or [KNOWN_SIDE_2], and state whether each side is opposite, adjacent, or the hypotenuse.

3

Watch the Side Identification

The output names the hypotenuse, opposite side, and adjacent side relative to your angle before picking a ratio.

4

Read the Ratio Setup and Solve

The output picks sine, cosine, or tangent, or their inverses, and shows the cross-multiplication or inverse function as its own step.

5

Check the Verification Line

Missing-side answers are checked against the Pythagorean theorem. Missing-angle answers are checked against the 90-degree complementary rule.

Who Uses Right Triangle Trig Solver

Geometry Students

Paste your homework's known angle and side into solve for a missing side or solve for a missing angle and check the ratio choice against your own worked answer.

Trigonometry Students

Practice correctly identifying opposite versus adjacent sides relative to a given angle, the step where most SOH-CAH-TOA mistakes happen.

Test Prep Students

Run right triangle problems from an SAT, ACT, or trigonometry placement test through this tool to build speed picking the correct ratio.

Teachers and Tutors

Generate a model answer key that isolates the side-identification step separately from the ratio calculation, exactly where students lose points.

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