Using the Spherical Dome Calculator
The MDI Spherical Dome Calculator helps calculate common design elements of a partial sphere set on an optional stem wall. It helps with quick design ideas as well as provide accurate measurements when finalizing structural elements. Outputs include circumference, surface area, volume, and distances along and around the building’s various details.
A level input measures a slice of the structure. For example, it can calculate the area of a second floor, show headroom around the dome perimeter, or calculate the volume and surface area of a portion of the dome.
All inputs are stored in the page URL, which may be bookmarked, stored in notes, or shared with others. Click the “Copy to Clipboard” button to quickly copy results to paste into emails, messages, or research notes. Print the page — or save as a PDF if supported by your browser or OS — for a professional copy of the drawing and results.
Diameter. The overall diameter of the structure. The calculator applies the diameter to the floor, stem-wall, and base of the spherical dome. A single diameter input is useful for quick estimates, but when calculating a specific design that may have a different diameter for the stem-wall, you should run two separate calculations.
Height. The height of the spherical dome from its base to the apex.
Stem Wall. The height of the stem wall extends vertically from the circular floor to the base of the dome. The stem wall height is optional by leaving the height set to zero (0).
Level. The optional horizontal level above the floor forms a subsection of the structure. It calculates an imaginary circle at that level plus the upper portion of the structure from that level to the apex.
Overlay. A scaled, graphical overlay to assist in visually representing the building size and purpose.
Units. The selectable unit will label the calculator outputs and properly scale the overlay. Note that all numerical inputs must be given in the same selected unit.
Diameter. The floor diameter is a circle representing the floor, stem wall, and dome base diameter.
Radius. The floor radius is half the floor diameter and is a useful number for various calculations.
Circumference. The floor circumference is the distance around the circle-shaped floor, stem-wall, and dome base.
Area. The floor area is the area of the circle inscribed by the floor diameter.
Height. The dome height is the distance from the base of the dome to the apex.
Radius of Curvature. All dome structures described by this calculator are a segment or “cap” of a sphere as defined by the dome’s diameter and height. The radius of curvature is the calculated radius of the whole sphere of which the dome is a portion.
Surface Distance. The dome surface distance is the length from the apex, following the dome curve down to the dome base.
Surface Area. The dome surface area is technically the dome’s lateral surface area from the base to the apex.
Volume. The dome volume is the cubic measure of the volume encompassed by the structure’s dome portion.
Height. The stem wall height describes a cylinder’s height with the floor diameter and the stem wall height. It connects the floor to the dome base. Leave the stem wall height set to zero (0) to remove the stem wall.
Surface Area. The stem wall surface area is the area of the cylinder formed by the stem wall.
Volume. The stem wall volume is the cubic measure of the volume encompassed by the stem wall cylinder.
Height. The total height is the overall height of the structure, as defined by the sum of the stem wall and dome heights.
Surface Distance. The total surface distance is the dome surface distance from the apex to base plus the height of the stem wall equaling the distance along the surface of the building from the apex to the floor.
Surface Area. The total surface area is the sum of the dome surface area plus the stem wall cylinder surface area.
Volume. The total volume is the cubic measure of the total volume encompassed by the complete structure.
Height Above Floor. The level height is the distance from the floor to a horizontal “slice” at the level specified above the floor. It effectively creates a subsection of the overall building.
Diameter. The level diameter is the calculated diameter at the specified level above the floor.
Radius. The level radius is the calculated radius — half the level diameter — at the specified level above the floor.
Circumference. The level circumference is the perimeter around the imaginary slice at the level specified above the floor.
Area. The level area is the area of the circle described by the imaginary slice at the level specified above the floor. A common use is to set the level at 10-feet (3 m) to calculate the second floor’s diameter and area.
Portion Above Level
Remaining Height. The imaginary slice through the structure at the specified level essentially creates a second portion of the overall structure. The remaining height is calculated as the height from the specified level to the apex of the dome.
Surface Distance. The level surface distance is the overall surface distance from the dome apex to the imaginary slice at the specified level. It will correctly follow the dome and even down the stem wall.
Surface Area. The level surface area is the remaining structure’s overall surface area above the imaginary slice at the specified level. It’s a surprisingly useful measure when calculating material needs for a dome.
Volume. The level volume is the total cubic volume encompassed by the remaining structure above the specified level.
We try to make the drawings as accurate as possible to the specified inputs, but we could not scale the drawings across different devices without losing important details. Therefore, all drawings are automatically sized to the width of the available display. This makes it difficult to convey differences in actual building size. In other words, a 50-foot diameter by 20-foot tall dome looks exactly the same as a 500-foot by 200-foot dome.
We added an overlay to give a real-world reference to compare against when drawing the structure. A 6-foot tall person appears dramatically smaller on a 500-foot dome versus a 50-foot dome.
These overlays are for convenience only. No attempt is made to “fit” them inside the building or to determine their appropriate use for a building. They will always render, even if they are too big or too small to see. They are merely there to help the user visually understand the size of a structure.
None. The none overlay deletes the overlay.
Person. The person overlay is the default overlay. It is a person rendered at 6-feet (1.8 m) tall.
Car. The car overlay is a mid-sized sedan with a 6-foot (1.8 m) person standing beside it.
BBall. The bball overlay is the side silhouette of a standard American competition basketball court on a six-inch floor. We recommend setting the level parameter to 20.5 feet to show the standard clearance height required for a competition floor.
Be aware that just because the calculator can draw a structure, it does NOT mean the structure can be built. This calculator is just a tool. Always consult with qualified designers, engineers, and builders before proceeding with a project.
Also, we’ve done everything we can to ensure the calculations are accurate, and the overlays are to scale. However, due to the complex nature of web development, we cannot guarantee the results are now or always will be correct. Therefore, this software is provided “as is,” without any kind of expressed or implied warranty. We are not liable for any claim or liability arising from or in connection with this software.