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Surface to Volume Ratio of Oloid Formula:
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The Surface to Volume Ratio of an Oloid is a geometric property that describes the relationship between the surface area and volume of this three-dimensional shape. An Oloid is a convex geometric shape discovered by Paul Schatz in 1929, formed by the convex hull of two circles arranged perpendicular to each other.
The calculator uses the formula:
Where:
Explanation: This formula calculates the surface to volume ratio based on the known surface area of the Oloid, using the mathematical properties of this unique geometric shape.
Details: The surface to volume ratio is crucial in various engineering and scientific applications, including fluid dynamics, heat transfer, and material science. For Oloids, this ratio helps understand how the shape interacts with its environment and its efficiency in various applications.
Tips: Enter the surface area of the Oloid in square meters. The value must be positive and greater than zero. The calculator will compute the corresponding surface to volume ratio.
Q1: What is an Oloid?
A: An Oloid is a three-dimensional geometric shape formed by the convex hull of two circles arranged perpendicular to each other with the same radius.
Q2: What are practical applications of Oloids?
A: Oloids are used in mixing technology, as their unique shape provides efficient fluid mixing with minimal energy consumption.
Q3: Why is the constant 3.0524184684 used?
A: This constant is derived from the mathematical properties of the Oloid shape and is specific to Oloid calculations.
Q4: What units should I use for surface area?
A: Surface area should be entered in square meters (m²) for consistent results.
Q5: Can this calculator handle very large or very small values?
A: The calculator can handle a wide range of values, but extremely large or small numbers may be limited by PHP's floating-point precision.