1. introduction
... of interpreting the excess quantities as a means of understanding the nature of intermolecular interaction among the binary mixture. From ideal behavior of some physical properties and study of characteristic departure, the interaction between molecules can be found out. In the present work, liquid ...
... of interpreting the excess quantities as a means of understanding the nature of intermolecular interaction among the binary mixture. From ideal behavior of some physical properties and study of characteristic departure, the interaction between molecules can be found out. In the present work, liquid ...
fluid transport mechanisms in microfluidic devices
... Electroosmosis refers to the bulk movement of an aqueous solution past a stationary solid surface, due to an externally applied electric field. Electroosmosis requires the existence of a charged double-layer at the solid-liquid interface. This charged double layer results from an attraction between ...
... Electroosmosis refers to the bulk movement of an aqueous solution past a stationary solid surface, due to an externally applied electric field. Electroosmosis requires the existence of a charged double-layer at the solid-liquid interface. This charged double layer results from an attraction between ...
Viscous flow in pipe
... If water runs through a pipe of diameter D with an average velocity V, the following characteristics are observed by injecting neutrally buoyant dye as shown. For small enough flow rates the dye streak (a streakline) will remain as a well-defined line as it flows along, with only slight blurring du ...
... If water runs through a pipe of diameter D with an average velocity V, the following characteristics are observed by injecting neutrally buoyant dye as shown. For small enough flow rates the dye streak (a streakline) will remain as a well-defined line as it flows along, with only slight blurring du ...
Drag and Drag Coefficients
... Form drag can be minimized by forcing seperation toward the rear of the object. This is accomplished by streamlining. The usual method of streamlining is to so proportion the rear of the object that the increase in pressure in the boundary layer, which is the basic cause of seperation, is sufficien ...
... Form drag can be minimized by forcing seperation toward the rear of the object. This is accomplished by streamlining. The usual method of streamlining is to so proportion the rear of the object that the increase in pressure in the boundary layer, which is the basic cause of seperation, is sufficien ...
lab module-4 - Portal UniMAP
... What can your conclude about exerted force between Flat Vane and Hemisphere Vane for the same size of nozzle diameter?. Which one give the highest force?. ...
... What can your conclude about exerted force between Flat Vane and Hemisphere Vane for the same size of nozzle diameter?. Which one give the highest force?. ...
ConcepTest Question
... c. Values of fluid velocity depend on the molecular concentration in that part of the fluid. ...
... c. Values of fluid velocity depend on the molecular concentration in that part of the fluid. ...
Fluid thread breakup
Fluid thread breakup is the process by which a single mass of fluid breaks into several smaller fluid masses. The process is characterized by the elongation of the fluid mass forming thin, thread-like regions between larger nodules of fluid. The thread-like regions continue to thin until they break, forming individual droplets of fluid.Thread breakup occurs where two fluids or a fluid in a vacuum form a free surface with surface energy. If more surface area is present than the minimum required to contain the volume of fluid, the system has an excess of surface energy. A system not at the minimum energy state will attempt to rearrange so as to move toward the lower energy state, leading to the breakup of the fluid into smaller masses to minimize the system surface energy by reducing the surface area. The exact outcome of the thread breakup process is dependent on the surface tension, viscosity, density, and diameter of the thread undergoing breakup.