Tubes are strong shapes because the circular cross-section distributes stress evenly, allowing them to withstand bending, torsion, and compression forces efficiently. The rounded shape prevents stress concentrations at specific points, making tubes ideal for applications where strength and durability are important.
When you squeeze an ointment tube, the pressure exerted by your hand forces the ointment to flow out of the tube. This causes the tube to collapse on itself as the volume of ointment decreases, resulting in a change in shape. The flexibility of the tube material allows it to deform under pressure, facilitating the dispensing of the ointment.
The shape of an ointment tube changes when you squeeze it due to the application of external pressure, which compresses the material of the tube. This pressure causes the tube's walls to deform, allowing the contents to be forced out through the opening. Once the pressure is released, the tube may partially return to its original shape, depending on the material's elasticity. This behavior is typical of flexible containers designed to dispense viscous substances.
The microscope doesn't have a cirtain shape but it is made up of a veriaty of shapes. the tube you look into is a cylinder shape the base is a square/rectangular shape and the platform is a square.
No, eye balls are circular.
Rain gauges typically have a cylindrical shape to collect and measure rainfall accurately.
A tube is a hollow cylinder.
The clarinet has the shape of a cylindrical tube.
cylinder
A square is not a strong shape. It can be easily flexed into a rhombus.
It is called a bugle bead because it has the long shape of a bugle.
By the description, it sounds like you just described a cylinder!
I Think what your talking about is a Cylinder?
no you can but if you find a cheat for it put it on you tube
toroid
It all varies on the shape of the tube and the onces in the tube...so the tube ithink is best for holding the most toothpaste is creast!
When you squeeze an ointment tube, the pressure exerted by your hand forces the ointment to flow out of the tube. This causes the tube to collapse on itself as the volume of ointment decreases, resulting in a change in shape. The flexibility of the tube material allows it to deform under pressure, facilitating the dispensing of the ointment.
It is a shape that is like a toothpaste tube which has a circular lid which is the same size as the tube below it.