The smallest complete unit that could be considered“living” is a single cell. Studied either as a separate entity or as partof a more complex organism, the cell’s mechanical properties havereceived much attention. Measurements of the mechanics of cells andits dynamic properties have given valuable insights in biologicalfunction, from cell migration to the biological process by which cellschange their professional identity (differentiation). A quantitativecorrelation of the mechanical properties of a cell with those of itsenvironment could resolve emergent properties that could lead tounderstanding how cells sense their environment and how thisenvironment affects biological function. Using this premise, we shalloutline general procedures for quantifying cell mechanical propertiesand propose a hypothesis on how mechanosensing might change inrelation to the cell’s immediate environment and gravitation.