We numerically simulate many-body classical dynamics in one- and two-dimensional models with dipole and momentum conservation, and find evidence for the predicted breakdown of hydrodynamics. Our theory provides a controlled example of how kinematic constraints lead to a rich landscape of dynamical ...
rho = 1000;%% Density of fluid(Kg/m^3) xi = 1.841;%% First derivative of the Bessel function for first mode fs = 1.111;%% Frequency of structure(Hz) n = 1;%% Tuning ratio nu = 10^-6;%% Kinematic viscosity of water(m^2/s) t = 0:0.1:20;...
Head of height L ft m Head of weir L ft m Height above datum L ft m Hydraulic radius L ft m Kinematic viscosity L2/ T ft2/s m2/s Length L ft m Manning's roughness coefficient T / L1/3 s/ft1/3 s/m1/3 Mass F T2/ L lb s2/ft N s2/m Modulus of elasticity F / L2 lb/...
Our models are validated with the Riemann problem and the limitations of lower order expansions to calculate higher order moments are shown. The kinematic viscosity and the thermal conductivity are numerically obtained using the Taylor-Green vortex and the Fourier flow respectively and these transport ...
kinematic_viscosity length^2/time dose_equivalent energy(dose_equivalent_index)/mass absorbed_dose energy(radiation)/mass specific_heat_capacity length^2/(time^2*thermodynamic_temperature) area length^2 magnetic_dipole_moment length^2*electric_current magnetic_polarizability length^2*time^2*...
kinematic_viscosity length^2/time dose_equivalent energy(dose_equivalent_index)/mass absorbed_dose energy(radiation)/mass specific_heat_capacity length^2/(time^2*thermodynamic_temperature) area length^2 magnetic_dipole_moment length^2*electric_current magnetic_polarizability length^2*time^2*...
rho = 1000; %% Density of fluid(Kg/m^3) xi = 1.841; %% First derivative of the Bessel function for first mode fs = 1.111; %% Frequency of structure(Hz) n = 1; %% Tuning ratio nu = 10^-6; %% Kinematic viscosity of water(m^2/s) t = 0:...
rho = 1000;%% Density of fluid(Kg/m^3) xi = 1.841;%% First derivative of the Bessel function for first mode fs = 1.111;%% Frequency of structure(Hz) n = 1;%% Tuning ratio nu = 10^-6;%% Kinematic viscosity of water(m^2/s) ...
kinematic_viscosity length^2/time dose_equivalent energy(dose_equivalent_index)/mass absorbed_dose energy(radiation)/mass specific_heat_capacity length^2/(time^2*thermodynamic_temperature) area length^2 magnetic_dipole_moment length^2*electric_current ...
rho = 1000;%% Density of fluid(Kg/m^3) xi = 1.841;%% First derivative of the Bessel function for first mode fs = 1.111;%% Frequency of structure(Hz) n = 1;%% Tuning ratio nu = 10^-6;%% Kinematic viscosity of water(m^2/s) ...