Show Navigation

Search Results

Refine Search
Match all words
Match any word
Prints
Personal Use
Royalty-Free
Rights-Managed
(leave unchecked to
search all images)
{ 32 images found }

Loading ()...

  • .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.
    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.
    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.
    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.
    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.
    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.
    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.
    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.
    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.
    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.
    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.
    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.
    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.
    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.
    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.
    K12glycerine839.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
  • High viscosity corn syrup is poured out of a 6 mm hole.  These types of liquids will naturally start to coil when they hit a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coil-902.JPG
  • High viscosity corn syrup is poured out of a 6 mm hole.  These types of liquids will naturally start to coil when they hit a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coils811.JPG
  • High viscosity corn syrup is poured out of a 6 mm hole.  These types of liquids will naturally start to coil when they hit a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coils806.JPG
  • High viscosity corn syrup is poured out of a 6 mm hole.  These types of liquids will naturally start to coil when they hit a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coils800.JPG
  • High viscosity honey is poured out of a 6 mm hole.  Honey will naturally start to coil when it hits a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coil-honey906.JPG
  • High viscosity corn syrup is poured out of a 6 mm hole.  These types of liquids will naturally start to coil when they hit a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coil-904.JPG
  • High viscosity corn syrup is poured out of a 6 mm hole.  These types of liquids will naturally start to coil when they hit a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coils813.JPG
  • High viscosity corn syrup is poured out of a 6 mm hole.  These types of liquids will naturally start to coil when they hit a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coils812.JPG
  • High viscosity corn syrup is poured out of a 6 mm hole.  These types of liquids will naturally start to coil when they hit a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coils810.JPG
  • High viscosity corn syrup is poured out of a 6 mm hole.  These types of liquids will naturally start to coil when they hit a surface.  This rope coil effect is often seen when pouring syrup on food.  This image was taken with a high speed flash at 1/40,000th of a second at at a magnification of 2x.
    K12coil-901.JPG
  • Facebook
  • Twitter
x

Ted Kinsman

  • Portfolio
  • Articles
  • Clients
  • About
  • Contact
  • Archive
    • All Galleries
    • Search
    • Cart
    • Lightbox
    • Client Area
  • Curriculum Vitae