Calculate all properties of a square: side, diagonal, perimeter, area, inradius, and circumradius from any single known value.
A square is a regular quadrilateral — four equal sides and four right angles. It is simultaneously a rectangle, a rhombus, and a regular polygon, making it one of the most fundamental shapes in geometry. Squares tile the plane perfectly, which is why floor tiles, graph paper, and pixel grids are all based on the square lattice.
This comprehensive square calculator handles five input modes: side length, diagonal, perimeter, area, or inradius (apothem). Enter any one value and the calculator instantly derives all others. Output includes the side length, diagonal (a√2), perimeter (4a), area (a²), inradius (a/2, the distance from center to the midpoint of a side), and circumradius (a√2/2, the distance from center to a vertex).
Visual comparison bars help you see how the different linear dimensions relate to each other, and a ratios table confirms exact mathematical relationships like diagonal/side = √2. The reference table lists formulas, topology counts (4 vertices, 4 edges, 2 diagonals), and the 90° interior angle.
Useful for construction layout, tile area estimation, fabric cutting, game board design, and any geometry class problem involving squares.
A square seems simple, but problems rarely start with side length alone. You might be given diagonal in a right-triangle problem, perimeter in a fencing problem, area in a flooring estimate, or inradius in a circle-inscribed geometry question. This calculator is useful because it converts any one of those starting points into the full set of square properties without forcing you to redo the algebra each time.
It is also a good reference tool for checking exact relationships. Since a square connects cleanly to constants like √2 and simple fractions, it is easy to verify whether a result is reasonable. That makes the calculator helpful in geometry coursework, drafting, layout work, tiling, and any situation where a single square dimension determines several downstream measurements.
Diagonal = a√2 Perimeter = 4a Area = a² Inradius (apothem) = a / 2 Circumradius = a√2 / 2 Side from diagonal: a = d / √2 Side from perimeter: a = P / 4 Side from area: a = √A
Result: Side = 10 cm, diagonal ≈ 14.1421 cm, perimeter = 40 cm, and area = 100 cm².
With mode set to side and input = 10, the calculator treats 10 cm as the side length a. It then applies d = a√2 to get about 14.1421 cm, perimeter = 4a to get 40 cm, area = a² to get 100 cm², inradius = a/2 to get 5 cm, and circumradius = d/2 to get about 7.0711 cm.
A square is one of the cleanest examples of a figure where one measurement determines everything else. Once you know the side, the perimeter, area, diagonal, inradius, and circumradius all follow immediately. The reverse is also true: if you know any one of those values, you can recover the side and rebuild the entire square. That makes square problems ideal for practicing how geometry formulas connect rather than treating each formula as a separate fact.
The diagonal is what links the square to right-triangle geometry. Each diagonal splits the square into two congruent 45-45-90 triangles, which is why the factor √2 appears so often. If a problem gives corner-to-corner distance, the square is really asking you to translate from a special triangle back to side length. Recognizing that structure makes many square questions faster and easier to solve.
Square measurements show up in flooring, concrete pads, fabric panels, screens, tiles, and layout grids. In those settings, the practical question is often not just area, but also perimeter for trim, diagonal for squareness checks, or inradius and circumradius for fitting circular components. A calculator that reports all of those properties together is useful because it mirrors how square dimensions are used in real planning and construction decisions.
Area = a², where a is the side length. You can also compute it from the diagonal: Area = d²/2.
Diagonal = a√2. For a 10 cm square, the diagonal is 10 × 1.4142… ≈ 14.14 cm.
The inradius (or apothem) is the distance from the center to the midpoint of a side. For a square it equals a/2.
The circumradius is the distance from the center to a vertex. For a square it equals a√2/2, which is also half the diagonal.
A square is a special rhombus where all angles are 90°. Every square is a rhombus, but not every rhombus is a square.
Yes. Select "Inradius (apothem)" mode and enter the value. The side is simply twice the inradius.