Consider a thin surface and hold it tightly and vertically at a point on its boundary. What it is the shape it assumes?
As a particular example let's take a circular plate clamped on a plane, as shown below. The clamping condition can be imposed by demanding that the normal vector to the surface at that point lies completely in the plane, however,
How to approach the problem ? Which theories/equations are suitable for this kind of problem (the goal is to determine the height z as a function of some coordinates on the plane) ? The material of course has some rigidity and know elastic properties (paper would be prototypical), so apart from gravity which forces are present?
(This question was initially posted in Physics SE, where it was deleted for being "a numerical calculation", according to a comment of one of the users; however, the contributor did not mention which equations should be numerically solved, under what conditions and why are they applicable. Also, in the closure message the moderator(s) indicated that the question was about "application of scientific knowledge to construct a solution to solve a specific problem", again without pointing out which piece of knowledge is suitable to the problem. Such sub-questions I'm trying to answer.)
