Streamline - crowlogic/arb4j GitHub Wiki

In fluid mechanics, streamlines are imaginary lines that represent the path followed by a fluid particle as it moves through a fluid. These lines are everywhere tangent to the velocity vector at each point in the flow, and they provide valuable information about the motion of fluids.

Here are a few things that streamlines indicate about the motion of fluids:

• Flow direction: Streamlines indicate the direction of fluid flow at any given point. By looking at the pattern of streamlines, it is possible to determine whether the fluid is flowing in a straight line, in a curved path, or in a vortex.

• Velocity magnitude: The spacing between streamlines indicates the velocity magnitude of the fluid. When streamlines are closer together, this indicates that the fluid is moving faster, while wider spacing indicates slower fluid motion.

• Flow separation: Streamlines can also indicate points of flow separation, where the fluid begins to separate from a surface and form eddies or vortices. This can occur, for example, when a fluid flows around a curved object or over a rough surface.

• Recirculation zones: Streamlines can also reveal the presence of recirculation zones, where fluid flows back on itself. These can occur, for example, in the wake of an object or in the boundary layer of a fluid flowing over a surface.

Overall, streamlines are a valuable tool for visualizing and understanding fluid flow. They allow us to identify important features of the flow and can be used to make predictions about the behavior of fluids in various situations.