Calculate interior, exterior, and central angles of any regular polygon. Also find the sum of interior angles, number of diagonals, area, apothem, and circumradius.
<p>The <strong>Polygon Angle Calculator</strong> computes the interior angle, exterior angle, central angle, and many other properties of any regular polygon — from a humble triangle up to polygons with hundreds of sides. Just enter the number of sides and, optionally, the side length for area calculations.</p>
<p>A regular polygon has all sides equal and all angles equal. The interior angle formula is <strong>(n − 2) × 180° / n</strong>, the exterior angle is <strong>360° / n</strong>, and the sum of all interior angles is <strong>(n − 2) × 180°</strong>. The calculator also counts the number of diagonals using <strong>n(n − 3) / 2</strong> and the number of non-overlapping triangles the polygon can be split into.</p>
<p>If you enter a side length, the tool extends to compute the perimeter, apothem (distance from the centre to the midpoint of a side), circumradius (distance from the centre to a vertex), and the total area using <strong>½ × perimeter × apothem</strong>. Visual angle bars let you compare interior, exterior, and central angles at a glance, and a stacked bar shows how interior and exterior angles sum to 180°.</p>
<p>A built-in reference table lists all key properties for regular polygons from 3 to 12 sides — triangle through dodecagon — with the current selection highlighted. Eight preset buttons let you jump instantly to popular shapes. This calculator is perfect for geometry homework, tiling and tessellation design, architecture, and any project involving regular polygons.</p>
Polygon Angle problems often require several dependent steps, and a small arithmetic slip can propagate through every derived value. This calculator is tailored to that workflow: you enter number of sides, side length (optional, for area), and it returns polygon name, interior angle, exterior angle, sum of interior angles in one consistent pass. It is useful for homework checks, worksheet generation, tutoring walkthroughs, and fast field/design estimates where you need reliable geometry results without rebuilding the full derivation each time.
Interior angle = (n−2)×180°/n. Exterior angle = 360°/n. Sum of interior angles = (n−2)×180°. Diagonals = n(n−3)/2. Area = ½ × n × s × apothem. Apothem = s / (2·tan(π/n)).
Result: Interior angle = 120°
A regular hexagon has interior angle = (6−2)×180/6 = 120°. Exterior = 60°. Sum = 720°. Diagonals = 9. With side 5: perimeter = 30, apothem ≈ 4.33, area ≈ 64.95.
This polygon angle tool links the entered values (number of sides, side length (optional, for area)) to the target geometry relationships used in class and practice problems. Instead of solving each intermediate step manually, you can validate setup and arithmetic quickly while still tracing which measurements drive the final result.
Formula focus: the calculator formula
Polygon Angle shows up in school geometry, technical drafting, construction layout checks, and early engineering design estimates. When values are changed repeatedly, the calculator helps you compare scenarios quickly and see how sensitive the shape is to each dimension.
Start with the primary outputs (polygon name, interior angle, exterior angle, sum of interior angles) and then use the remaining cards/tables to confirm consistency with your diagram. Keep units consistent across inputs, and round only at the end if your assignment or project specifies a fixed precision.
A regular polygon has all sides of equal length and all interior angles of equal measure. Examples include equilateral triangles, squares, and regular hexagons.
Use the formula: Interior angle = (n − 2) × 180° / n, where n is the number of sides. Use this as a practical reminder before finalizing the result.
As you walk around any convex polygon turning at each corner by the exterior angle, you complete one full rotation (360°). Keep this note short and outcome-focused for reuse.
The apothem is the perpendicular distance from the centre of a regular polygon to the midpoint of one of its sides. It is used to calculate area.
The number of diagonals is n(n − 3) / 2. A hexagon (n = 6) has 9 diagonals, an octagon (n = 8) has 20.
This calculator is designed for regular polygons where all sides and angles are equal. For irregular polygons, each angle must be measured individually.