Abstract
The aim of this paper is to find the optimal shapes of reservoirs and to minimize the whole lateral surface area for a known volume V. The minimization is studied for different geometrical shapes and it is compared to the cube case. It is proved that the lateral surface area of a hollow ellipsoid with negligible or non-negligible thickness is minimized when it is transformed to a spher. It is then proved that the minimization of the whole lateral surface area with a constant volume results to a differential equation which cannot be resolved in the general case; but only for some particular boundary values. Later, it is proved that it is the spher for which the greatest ratio V/ S m where S m is the minimum lateral surface area is obtained, and finally two formulas are proved for the calculation of lateral surface area of ellipsoid and the perimeter of ellipse.
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