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  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine911.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine910.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine907.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine854.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine845.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine841.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine840.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine852.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine850.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine912.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine909.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine908.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine853.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine848.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine846.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine913.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine851.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine844.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine843.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine842.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine847.JPG
  • .The unique fishbone pattern is created by two colliding steams of liquids.  Each stream or jet is created by a 1mm diameter nozzle.  This image if from a series of images where the velocity of the fluid jet is varied from .8 to 3 meters per second.  This pattern is currently the focus of scientists studying the strange world of fluid dynamics.  The pattern is a stable flow state that is a balance of surface tension,  viscosity, momentum, and gravity.  The fluid used in this experiment is 90% glycerol  and 10% water solution with a viscosity of 20cS.   This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 1x.  This pattern cal also be called the fish effect, herringbone effect, or the fishbone effect.
    K12glycerine839.JPG
  • This is a turbine blade that is responsible for making a jet engine work.  This particular blade is from a fighter jet and routinely travels though the compression stage of the jet engine traveling faster than the speed of sound as it rotates.  Due to the hot environment inside the engine, the turbine blades have to be specially engineered out of state of the art materials.  Titanium, and titanium alloys are routinely used for turbine blades.
    titanium-jet-blade_0060.jpg
  • A microscopic view of an inkjet printer head.  The circular hole is the ink nozzle and the flow is often controlled with electrostatics.  The magnification is 200x on the 35 mm camera.
    K09printerhead046.jpg
  • A microscopic view of an inkjet printer head.  The circular hole is the ink nozzle and the flow is often controlled with electrostatics.  The magnification is 100x on the 35 mm camera.  There is a dropplet of red ink on the head.
    K09printerhead0016.jpg
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