What people are saying - Write a review
We haven't found any reviews in the usual places.
PRINCIPLES AND DESIGN OF SCALE MODEL EXPERIMENTS
RELAXATION OF DESIGN REQUIREMENTS
12 other sections not shown
acoustical applied ASME atmospheric boundary layer Cavitation cavity clay coefficient common pi-numbers constant Constituting Laws deformation Dimensional Analysis dimensionless dynamic effects elastic Engineering equation Euler number experimental expressed Fields of Application flow Fourier's law frequency Froude number geometrically similar governing laws heat conduction heat transfer Hence Hooke's law hydraulic impact inertial forces law approach law of heat law of inertia length scale factor loss tangent magnetic mass material properties model and prototype model design model rules Named Pi-Numbers Newton number Newton's law Newtonian fluid particles performance phenomenon physical laws Pi-Numbers Derived pressure primary scale factors principal pi-numbers problem Proc ratio relation relaxation representative quantities requirements Reynolds number sand scale model scale model experiments sediment Shear stress Similitude soil sound Source of Information speed structures surface temperature Terramechanics thermal tire U.S. Army vehicle velocity vibrations viscous forces wall wave weight wind tunnel York