Calculate the volume of a cuboid (rectangular box) from length, width, and height. Instantly convert to cm³, m³, in³, ft³, liters, and gallons. See surface area, diagonals, and face breakdowns.
The Cuboid Volume Calculator determines how much space a rectangular box occupies by multiplying its three dimensions: length × width × height. Also known as a rectangular prism, the cuboid is the most common 3D shape in everyday life — from shipping packages and storage containers to rooms and swimming pools.
Enter your measurements in any of six units (mm, cm, m, in, ft, yd) and the calculator instantly converts the volume into all major unit systems: cubic centimeters, cubic meters, cubic inches, cubic feet, liters, and US gallons. This makes it invaluable for comparing product specs, estimating shipping costs, calculating room air capacity for HVAC sizing, or determining how much liquid a rectangular tank can hold.
In addition to volume, the tool computes total surface area, the space diagonal (the longest line inside the box), and all three face diagonals. A color-coded bar chart breaks down how much surface area each pair of faces contributes — useful for wrapping, painting, and material estimation.
Eight presets load common box dimensions including shoeboxes, shipping parcels, moving boxes, mini-fridges, rooms, sheds, and 20-foot shipping containers. Two reference tables provide diagonal formulas and a complete volume unit conversion matrix.
This calculator is most useful when a rectangular space has to be translated into practical capacity numbers quickly. Shipping teams use it to compare parcel sizes across inches, centimeters, liters, and gallons; facilities teams use it to estimate room volume for ventilation or storage; and aquarium, tank, and container planning often starts with the same length-width-height measurements.
It is also valuable when volume alone is not enough. The built-in surface area and face breakdown help with wrapping, painting, insulation, and material estimates, while the space diagonal shows the longest rigid object that can fit through the box. That combination makes it more useful than a simple volume-only converter.
Volume = l × w × h. Surface area = 2(lw + lh + wh). Space diagonal = √(l² + w² + h²).
Result: 576 in³ = 0.3333 ft³ = 9.437 L
A box 12 × 8 × 6 inches: V = 576 in³ ≈ 9,437 cm³ ≈ 0.333 ft³ ≈ 9.44 liters. SA = 432 in². Space diagonal ≈ 15.62 in.
The core cuboid formula is simple: multiply length, width, and height in the same unit. In practice, the harder part is usually converting the result into the unit you actually need. A storage tote may be measured in inches, a tank spec may be given in liters, and a room estimate may need cubic feet or cubic meters. This calculator keeps those conversions together so you can move from one measurement system to another without re-entering dimensions.
Real projects rarely stop at volume. If you are ordering cardboard, plywood, insulation, sheet plastic, or wrapping film, the exposed surface area matters more than capacity. The face-area breakdown in this calculator shows which sides dominate the total, which is useful when one pair of faces needs a different material or finish. The diagonal outputs are equally practical because they answer fit questions, such as whether shelving, pipes, or equipment can pass through the box on a diagonal.
Rectangular prisms appear in shipping cartons, cargo containers, closets, rooms, raised beds, tanks, and appliance clearances. For shipping, volume helps estimate dimensional size; for room planning, cubic feet or cubic meters help with airflow and storage planning; and for tanks, the liters and gallons outputs help compare stated capacity with actual inner dimensions. Measuring inner dimensions instead of outer dimensions is the key step when wall thickness matters.
Volume = length × width × height. All three dimensions must be in the same unit. The result is in that unit cubed (e.g., in³, cm³).
Multiply cubic inches by 0.016387 to get liters, or divide by 61.024.
Dimensional (volumetric) weight = L × W × H ÷ 5000 (for cm) or ÷ 139 (for inches). Carriers charge whichever is greater: actual weight or dimensional weight.
Enter the inner dimensions in centimeters. The volume in cm³ divided by 1,000 gives liters.
The space diagonal is the longest straight-line distance inside the box. It tells you the maximum length of an item that fits inside diagonally.
Yes. "Cuboid" and "rectangular prism" are interchangeable. A cube is a special case where all sides are equal.