Syllabi of courses taught in English 2004/2005
... Brief overview of main persons and ideas of ancient philosophy. The basic aim is to point out close relation of ancient philosophical ideas with our present day problems. Contents: 1. What is philosophy, the mythological background. 2. Presocratic philosophers, the Milesians and concept of arche, re ...
... Brief overview of main persons and ideas of ancient philosophy. The basic aim is to point out close relation of ancient philosophical ideas with our present day problems. Contents: 1. What is philosophy, the mythological background. 2. Presocratic philosophers, the Milesians and concept of arche, re ...
Simulation of Droplet Impingement on a Solid Surface by
... LBM model to simulate the spreading behavior of a droplet colliding with a solid dry surface at low impact velocity. Zhou et al. [5,6] studied the shape evolution of micro droplets impingement dynamics in ink-jet manufacturing with both COMSOL phase field method and LBM method. The dynamic process o ...
... LBM model to simulate the spreading behavior of a droplet colliding with a solid dry surface at low impact velocity. Zhou et al. [5,6] studied the shape evolution of micro droplets impingement dynamics in ink-jet manufacturing with both COMSOL phase field method and LBM method. The dynamic process o ...
Coriolis force
... • Suppose the roundabout spins counter-clockwise when viewed from above. From the thrower's perspective, the deflection is to the right.[ From the non-thrower's perspective, deflection is to left. For a mathematical formulation see Mathematical derivation of fictitious forces. • An observer in a rot ...
... • Suppose the roundabout spins counter-clockwise when viewed from above. From the thrower's perspective, the deflection is to the right.[ From the non-thrower's perspective, deflection is to left. For a mathematical formulation see Mathematical derivation of fictitious forces. • An observer in a rot ...
A Two Dimensional Numerical Model For Simulation of The
... two mechanisms; i.e., convection and diffusion. Convection is the direct process in which the tracer moves from place to place through a fluid system; thus, mass transport by convection means mass transport due to a local velocity. Diffusion is the transport caused by the molecular and turbulent act ...
... two mechanisms; i.e., convection and diffusion. Convection is the direct process in which the tracer moves from place to place through a fluid system; thus, mass transport by convection means mass transport due to a local velocity. Diffusion is the transport caused by the molecular and turbulent act ...
momentum analysis of flow systems
... Assumptions 1 The flow is steady and incompressible. 2 The plate is vertical and the jet is normal to plate. 3 The pressure on both sides of the plate is atmospheric pressure (and thus its effect cancels out). 4 Fiction during motion is negligible. 5 There is no acceleration of the plate. 6 The wate ...
... Assumptions 1 The flow is steady and incompressible. 2 The plate is vertical and the jet is normal to plate. 3 The pressure on both sides of the plate is atmospheric pressure (and thus its effect cancels out). 4 Fiction during motion is negligible. 5 There is no acceleration of the plate. 6 The wate ...
A Manuscript Template for JAFM - Journal of Applied Fluid Mechanics
... thermal conductivity, respectively. In the present study, the flow has been assumed laminar and incompressible, which implies a constant density for the water. Also, the density of the fluid does not vary with temperature. Gravitational forces are neglected to bypass the effects of the direction off ...
... thermal conductivity, respectively. In the present study, the flow has been assumed laminar and incompressible, which implies a constant density for the water. Also, the density of the fluid does not vary with temperature. Gravitational forces are neglected to bypass the effects of the direction off ...
ANDHRA UNIVERSITY : COLLEGE OF ENGINEERING
... integral- Circulation – Work surface integral – Flux, Green’s theorem in the plane, Stoke’s theorem, Orthogonal curvilinear co-ordinates Del applied to functions in orthogonal curvilinear co-ordinates, Cylindrical coordinates – spherical polar co-ordinates. Partial differential equations. Formation ...
... integral- Circulation – Work surface integral – Flux, Green’s theorem in the plane, Stoke’s theorem, Orthogonal curvilinear co-ordinates Del applied to functions in orthogonal curvilinear co-ordinates, Cylindrical coordinates – spherical polar co-ordinates. Partial differential equations. Formation ...
Fundamentals of Rocket Stability
... You can calculate the center of pressure. But, in general, this is a complicated procedure requiring the use of calculus. The aerodynamic forces are the result of pressure variations around the surface of the rocket. In general, you would have to determine the integral of the pressure times the unit ...
... You can calculate the center of pressure. But, in general, this is a complicated procedure requiring the use of calculus. The aerodynamic forces are the result of pressure variations around the surface of the rocket. In general, you would have to determine the integral of the pressure times the unit ...
Scalable nano-particle assembly by efficient light-induced concentration and fusion Benjamin K. Wilson
... devices due to the NPs incompatibility with conventional IC fabrication processes. Liquidphase deposition has been realized using AC dielectrophoresis with CNTs [1, 2]. These processes generally aim to align a single CNT between two electrodes. More recently, optical trapping has been used to assemb ...
... devices due to the NPs incompatibility with conventional IC fabrication processes. Liquidphase deposition has been realized using AC dielectrophoresis with CNTs [1, 2]. These processes generally aim to align a single CNT between two electrodes. More recently, optical trapping has been used to assemb ...
Fluid dynamics
In physics, fluid dynamics is a subdiscipline of fluid mechanics that deals with fluid flow—the natural science of fluids (liquids and gases) in motion. It has several subdisciplines itself, including aerodynamics (the study of air and other gases in motion) and hydrodynamics (the study of liquids in motion). Fluid dynamics has a wide range of applications, including calculating forces and moments on aircraft, determining the mass flow rate of petroleum through pipelines, predicting weather patterns, understanding nebulae in interstellar space and modelling fission weapon detonation. Some of its principles are even used in traffic engineering, where traffic is treated as a continuous fluid, and crowd dynamics. Fluid dynamics offers a systematic structure—which underlies these practical disciplines—that embraces empirical and semi-empirical laws derived from flow measurement and used to solve practical problems. The solution to a fluid dynamics problem typically involves calculating various properties of the fluid, such as flow velocity, pressure, density, and temperature, as functions of space and time.Before the twentieth century, hydrodynamics was synonymous with fluid dynamics. This is still reflected in names of some fluid dynamics topics, like magnetohydrodynamics and hydrodynamic stability, both of which can also be applied to gases.