Difference between scalene, isosceles, and equilateral?

Scalene: all sides different (may be right). Isosceles: two equal sides and two equal angles (may be right). Equilateral: all sides and angles equal (60° each; never right).

Right Triangle Calculator instantly finds the hypotenuse (c), angles α & β (degrees & radians), area = ½ab, and perimeter = a + b + c from any valid inputs.

Enter legs, hypotenuse, or an angle — the tool auto-converts units (in, cm, ft, m), shows exact values and copy-ready results for fast, accurate work.

Right Triangle Calculator – sides, angles, area & perimeter.

Right Triangle ⇌ Triangle Area Calculator · Rectangle Area Calculator · Circle Area Calculator

Mode: Legs a + b

Results: —

Conversion Formula: c = √(a² + b²) · A = ½ab

Tip: Angles shown are acute angles α and β with α + β = 90°. Units follow inputs (in, cm, ft).

Right Triangle Calculator – Find Area, Angles & Hypotenuse

Q: What is a right triangle?

A right triangle has one 90° angle. The two legs (a and b) form the right angle, and the hypotenuse (c) is opposite it.

Q: What is the longest side called?

The hypotenuse. It is always opposite the right angle and is the longest side of the triangle.

Q: How do you find the hypotenuse?

Use the Pythagorean theorem: c = √(a² + b²). You can also use the calculator modes when an angle is known.

Q: What are the angles of a right triangle?

One angle is 90°. The other two are acute and sum to 90°. They can be computed via tan, sin, or cos.

Q: How to find the area?

Use A = ½ab where a and b are the legs. If you know one leg and an angle, find the other leg with trigonometry first.

Q: What is the altitude of a triangle?

For right triangles, the altitude to the hypotenuse is h = (a·b)/c — the perpendicular from the right angle to side c.

Q: Is a right isosceles triangle possible?

Yes. A 45°–45°–90° triangle has two equal legs and hypotenuse c = a√2.

The Right Triangle Calculator quickly finds the hypotenuse, area, perimeter, and angles α & β of any right triangle — whether you know two sides or one side and an angle.
It supports all major units (inches, centimeters, feet, meters) and automatically converts between them while showing accurate, copy-ready results.

Perfect for students, engineers, and builders, this calculator lets you apply the Pythagorean theorem and basic trigonometry instantly — no manual math required.

💡 Tip: Simply enter two known values — the tool calculates every other side, angle, and the total perimeter in real time.

Understanding Right Triangles

A right triangle is a type of triangle that has one 90° angle.
Its three sides are the two legs (a and b) — which form the right angle — and the hypotenuse (c), the longest side opposite the right angle.

This shape is the foundation of geometry, architecture, and trigonometry — used to calculate slopes, roof pitch, stair design, and distances in navigation or mapping.
For example, if a ladder reaches a 10 ft wall while its base is 6 ft away, the hypotenuse represents the ladder’s exact length.

💡 Tip: Every right triangle satisfies the equation c² = a² + b² — the famous Pythagorean theorem.

Right Triangle Formulas (Quick Sheet)

Below are the key right triangle formulas you can use to find any missing side, angle, or area — essential for geometry, trigonometry, and construction projects.

Pythagorean Theorem: c² = a² + b²
Area: A = ½ab
Perimeter: P = a + b + c
Angles: α = arctan(a/b),
β = arctan(b/a)
(or using sin / cos relationships)
Altitude to Hypotenuse: h = (a·b)/c

💡 Tip: These formulas work in any unit system (in, cm, ft, m). Just keep all sides in the same unit for accurate results.

Calculator Modes Explained

The Right Triangle Calculator includes four powerful modes — each designed to solve different scenarios depending on which sides or angles you know.
Choose the one that matches your given values to get instant, accurate results.

1. Legs (a + b): When both legs are known.
Calculates c = √(a² + b²),
A = ½ab, and both acute angles α and β.
2. Leg + Hypotenuse (c): When you know one leg and the hypotenuse.
Finds the missing leg b = √(c² − a²),
then computes area and angles automatically.
3. Hypotenuse + Angle θ: Ideal for trigonometric setups.
Uses a = c·cosθ,
b = c·sinθ, and then calculates area, perimeter, and the second angle.
4. Leg + Angle θ: When one leg and one angle are given.
Solves using b = a·tanθ,
c = a / cosθ, then derives all remaining sides and area.

💡 Tip: Switch between modes to test different input combinations — all results update instantly, including degrees ↔ radians conversion.

How to Find Area & Hypotenuse (Step-by-Step)

Finding the area and hypotenuse of a right triangle is simple once you know any two sides.
Follow these steps or use the calculator to get precise results instantly.

Area: Choose the two legs (base & height), then apply
A = ½ab.
The area represents the space enclosed by the triangle.
Hypotenuse: Use the Pythagorean theorem
c = √(a² + b²)
or simply select the appropriate calculator mode (e.g., Legs Mode or Angle Mode) to compute it automatically.
Angle-first Method: When one side and an angle are known, convert degrees ↔ radians as needed,
then apply trigonometric formulas (sin, cos, tan) to find the remaining sides.

Example:
Given a = 6, b = 8
⇒ c = √(6² + 8²) = 10
⇒ Area = ½ × 6 × 8 = 24
⇒ Perimeter = a + b + c = 6 + 8 + 10 = 24
✅ The hypotenuse is the longest side of the right triangle.

💡 Tip: Keep all sides in the same unit (in, cm, ft, m) for consistent results — the calculator handles unit conversion automatically.

Types of Triangles (Quick Comparison)

Triangles are classified by their sides and angles.
The table below highlights how each type differs — from the common right triangle to the perfectly balanced equilateral triangle.

Type	Sides	Angles	Key Properties
Right Triangle	All different	One 90° angle	Uses Pythagorean theorem (c² = a² + b²)
Right-Isosceles Triangle	Two equal legs	45°, 45°, 90°	Half of a square — both legs are equal
Isosceles Triangle	Two equal sides	Two equal angles	Symmetrical — common in roofs and bridges
Scalene Triangle	All sides different	All angles different	No symmetry — can still be a right triangle
Equilateral Triangle	All equal	All 60°	Perfect symmetry — area via A = √3/4 × a²
Obtuse Triangle	Any combination	One angle > 90°	The largest angle faces the longest side

💡 Tip: Every triangle type can be identified by measuring its sides and angles — the Right Triangle Calculator automatically classifies it for you.

Example Calculations

Four quick scenarios that match the calculator’s modes. Values are rounded to two decimals where appropriate:

Legs: a = 9, b = 12 →
c = 15,
A = 54,
α = 36.87°,
β = 53.13°
Leg + c: a = 7, c = 25 →
b = √(25² − 7²) = 24,
A = ½ × 7 × 24 = 84
c + θ: c = 10, θ = 30° →
a = c·cosθ = 8.66,
b = c·sinθ = 5
a + θ: a = 5, θ = 40° →
b = a·tanθ = 4.20,
c = a / cosθ = 6.54

💡 Tip: Switch calculator modes (Legs / Leg+c / c+θ / a+θ) to reproduce these results instantly, then copy the outputs for documentation.

Conversion Table – Common Units

Use this quick conversion table to compare right triangle results in both inches and metric units.
The calculator converts between all systems automatically — this table helps visualize the relationships.

a (in)	b (in)	c (in)	Area (in²)	a (cm)	b (cm)	c (cm)	Area (cm²)	Area (m²)
6	8	10	24	15.24	20.32	25.40	154.84	0.015
9	12	15	54	22.86	30.48	38.10	348.38	0.035
5	12	13	30	12.70	30.48	33.02	193.55	0.019

💡 Tip: 1 in = 2.54 cm, 1 ft = 12 in.
Always keep consistent units across all triangle sides for accurate results.

Keywords: area of right triangle in cm², triangle area converter.

Practical Uses

The Right Triangle Calculator is not just for geometry class — it’s a practical tool for real-world applications where accuracy and quick calculations matter.

Carpentry & Framing: Calculate cuts, rafter lengths, and support angles in woodworking or construction.
Roof Pitch Design: Determine slope, rise, and run instantly — ideal for architects and roofing engineers.
Layout & Surveying: Measure distances, plot land gradients, and ensure right-angled boundaries.
CAD & Engineering: Integrate precise triangle data into technical drawings and 3D modeling software.
Education & Training: Demonstrate trigonometry and Pythagorean relationships in classrooms or tutorials.

💡 Tip: Builders often pair this calculator with a Roof Pitch Calculator to verify rise-to-run ratios before cutting or assembling frames.

Common Mistakes

Even simple right triangle calculations can go wrong with small input errors.
Here are the most common mistakes to avoid when using the calculator:

Mixing up the base and height — remember, the slanted side (hypotenuse) is never used as height.
Forgetting that the right angle is always opposite the hypotenuse (the longest side in the triangle).
Entering degree values into formulas expecting radians — always check your angle mode.
Using a non-right triangle with this calculator — it’s specifically built for 90° triangles only.

💡 Tip: Always verify your triangle setup — one 90° angle, correct side labeling (a, b, c), and consistent units ensure accurate results.

FAQs – Right Triangle & Pythagorean Theorem

1) What is a right triangle?
A triangle with one 90° angle. The two legs (a, b) form the right angle; the opposite side is the hypotenuse (c).

2) What is the longest side called?
The hypotenuse — it’s always opposite the right angle and is the triangle’s longest side.

3) How do you find the hypotenuse?
Use the Pythagorean theorem: c = √(a² + b²).
Or choose the calculator mode that matches your inputs (e.g., Legs or Angle mode).

4) What are the angles of a right triangle?
One angle is 90°; the other two are acute and satisfy α + β = 90°.
You can calculate them using trigonometric functions such as tan, sin, or cos.

5) How to find the area?
Use the formula A = ½ab, where a and b are the legs.
If you know one leg and an angle, find the other leg using trigonometry first.

6) What is the altitude of a triangle?
For a right triangle, the altitude to the hypotenuse is h = (a·b)/c.
It’s the perpendicular drawn from the right angle to the hypotenuse.

7) Is a right isosceles triangle possible?
Yes. It has angles of 45°–45°–90°, equal legs, and follows c = a√2.

8) Difference between scalene / isosceles / equilateral?
Scalene: All sides and angles are different (it can still be a right triangle).
Isosceles: Two equal sides and two equal angles (can also form a right triangle).
Equilateral: All sides and angles are equal (60° each; never a right triangle).

Related Tools + Final Note

Explore more geometry calculators to continue learning and comparing shapes.
Each tool is designed for fast, accurate, and visual understanding of area, perimeter, and key dimensions.

Triangle Area Calculator – for any 3-sided triangle.
Rectangle Area Calculator – for precise 2D rectangles or squares.
Circle Area Calculator – to find radius, diameter, and circumference.
Trapezoid Area Calculator – for parallel-sided shapes.

More on right triangles and the Pythagorean theorem —
Wikipedia.

Keywords: triangle calculators, pythagorean theorem reference.