Enter the legs of two right triangles to check similarity. Shows scale factor, angle comparison, area ratio (k²), perimeter ratio (k), and side-by-side analysis with visual bars and reference table.
Two right triangles are similar if and only if they share one acute angle (the right angle is already shared, so AA similarity is met). When triangles are similar, all corresponding sides are in the same ratio — the scale factor k. This calculator takes the two legs of each right triangle, computes the hypotenuse, determines the acute angles, and checks whether the triangles are similar.
If they are similar, the calculator reports the scale factor k, the perimeter ratio (also k), and the area ratio (k²). The area-ratio-equals-k-squared rule is one of the most important results in geometry: when you scale a 2D shape by factor k, lengths scale by k but area scales by k². For example, doubling every side quadruples the area.
Similar right triangles arise everywhere: in shadow problems (your shadow and a flagpole shadow form similar right triangles with the sun rays), in trigonometry (the unit-circle definitions of sin and cos are ratios from a similar family of right triangles), and in fractal geometry (self-similar patterns repeat at every scale).
The calculator also handles the "not similar" case gracefully: it shows the angle differences so you can see how close (or far) the triangles are from similarity, and it still computes raw side and area ratios for comparison. Preset buttons include classic Pythagorean-triple pairs (3-4-5 vs. 6-8-10) and intentionally non-similar pairs for contrast.
This calculator is useful when you need more than a yes-or-no similarity check. Instead of manually computing two hypotenuses, comparing acute angles, and then translating the scale factor into perimeter and area ratios, you can see the full relationship between the triangles in one place. That makes it practical for classroom examples, geometry proofs, drafting problems, and any situation where you want to understand how a small right triangle scales into a larger one.
Hypotenuse: c = √(a² + b²) Acute angles: A = arctan(a/b), B = 90° − A Similar if angles match (AA criterion) Scale factor: k = side₁ / corresponding side₂ Perimeter ratio = k Area ratio = k²
Result: Similar ✓, k = 0.5, Hypotenuses 17 and 34, Area ratio = 0.25, Perimeter ratio = 0.5
Triangle 1 is 8-15-17 and Triangle 2 is 16-30-34. Each side in Triangle 2 is double the corresponding side in Triangle 1, so the triangles are similar. From Triangle 1 to Triangle 2 the enlargement factor is 2, which means from Triangle 2 back to Triangle 1 the displayed T1/T2 scale factor is 0.5. Perimeters scale by 0.5 and areas scale by 0.5² = 0.25.
Right triangles are especially convenient because one angle is already fixed at 90°. That means you only need one matching acute angle to confirm similarity by the AA criterion. Once similarity is established, every corresponding side ratio matches automatically, so you can move from a single scale factor to perimeter and area relationships without re-solving the geometry from scratch.
This calculator reports side ratios using Triangle 1 divided by Triangle 2. If Triangle 1 has legs 3 and 4 while Triangle 2 has legs 6 and 8, the ratio is 0.5 even though Triangle 2 is the larger shape. That direction matters. A scale factor below 1 means Triangle 1 is the reduced version of Triangle 2; a factor above 1 means Triangle 1 is the enlargement. The area ratio follows the square of that value, which is why visually modest changes in side length can create large differences in area.
Similar right triangles appear in slope and shadow problems, roof pitch calculations, map and model scaling, and trigonometry derivations. They also help students connect several big ideas at once: Pythagorean triples, tangent-based angle calculations, and the rule that areas of similar figures scale by the square of the linear factor. A side-by-side comparison is often the fastest way to see whether two triangles belong to the same family or only look close by inspection.
Similar triangles have the same shape but not necessarily the same size. All corresponding angles are equal, and all corresponding sides are proportional (in the same ratio k).
Since both already have a 90° angle, you only need one more angle to match. If the two acute angles are the same (within rounding), the triangles are similar by the AA criterion.
The ratio of any corresponding pair of sides: k = side₁ / side₂. For similar triangles, this ratio is the same for all three side pairs.
Area is a 2-dimensional measure. Scaling each linear dimension by k multiplies the area by k × k = k². For example, doubling sides (k = 2) quadruples area (k² = 4).
Yes. A Pythagorean triple (a, b, c) and its multiple (ka, kb, kc) form similar right triangles with scale factor k, because they have the same angle ratios.
Yes. For example, a 3-4-5 triangle (area 6) and a 2-6-√40 triangle (area 6) have equal areas but different angles, so they are NOT similar.