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Thickness of Hollow Cuboid is defined as the shortest distance between the adjacent and parallel pair of faces of the inner and outer cuboidal surfaces of the Hollow Cuboid. It represents the uniform distance between the inner and outer surfaces of the cuboid.
The calculator uses the formula:
Where:
Explanation: The thickness is calculated as half the difference between the outer and inner lengths, assuming uniform thickness throughout the cuboid structure.
Details: Calculating thickness is crucial for structural design, material estimation, weight calculation, and ensuring proper mechanical properties in hollow cuboidal structures used in construction and manufacturing.
Tips: Enter both outer and inner lengths in meters. Ensure the outer length is greater than the inner length. All values must be positive numbers.
Q1: What is a hollow cuboid?
A: A hollow cuboid is a three-dimensional geometric shape with six rectangular faces, where the inner portion is removed, creating a hollow space with uniform thickness.
Q2: Why is thickness divided by 2 in the formula?
A: The thickness is divided by 2 because the difference between outer and inner lengths accounts for thickness on both sides of the cuboid.
Q3: Can this formula be used for non-uniform thickness?
A: No, this formula assumes uniform thickness throughout the cuboid structure. For varying thickness, more complex calculations are required.
Q4: What are typical applications of hollow cuboids?
A: Hollow cuboids are commonly used in construction (beams, columns), packaging, storage containers, and various engineering applications where weight reduction is important.
Q5: How does thickness affect structural strength?
A: Thickness directly influences the structural strength, stiffness, and load-bearing capacity of hollow cuboidal structures. Thicker walls generally provide greater strength but increase weight and material cost.