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  • A plate breaking as it hits the floor.  Photographed with high-speed flash of a duration of 1/1,000,000th of a second.  .
    K080126Smash0032A.jpg
  • A drip of water splashes as it hits a shallow dish of water.  The action is frozen in time with a high-speed flash with a duration of 1/20,000th of a second.  The impact of the water droplet creates a unique crown shaped splash.
    070227drip0449.jpg
  • Gray Squirrel (Sciurus carolinensis). Jumping from a branch.  This high-speed image was captured with a flash at 1/20,000th of a second.  This is a female, and she has been feeding on black walnuts.  The nuts have stained teh fur around her mouth.
    K11jumpingsquirrel5048.jpg
  • A drip of water splashes as it hits a shallow dish of water.  The action is frozen in time with a high-speed flash with a duration of 1/20,000th of a second.  The impact of the water droplet creates a unique crown shaped splash.
    070227drip0427.jpg
  • Gray Squirrel (Sciurus carolinensis). Jumping from a branch.  This high-speed image was captured with a flash at 1/20,000th of a second.  This is a female, and she has been feeding on black walnuts.  The nuts have stained teh fur around her mouth.
    K11jumpingsquirrel6109.jpg
  • A cup and plate breaking as it hits the floor.  Photographed with high-speed flash of a duration of 1/1,000,000th of a second.  .
    K080126Smash0034A.jpg
  • Gray Squirrel (Sciurus carolinensis). Jumping from a branch.  This high-speed image was captured with a flash at 1/20,000th of a second.  This is a female, and she has been feeding on black walnuts.  The nuts have stained the fur around her mouth.
    K11jumpingsquirrel5909.jpg
  • A light bulb breaking as it hits the floor.  Photographed with high-speed flash of a duration of 1/1,000,000th of a second.  .
    K080127Smash0044A.jpg
  • A light bulb breaking as it hits the floor.  Photographed with high-speed flash of a duration of 1/1,000,000th of a second.  This light bulb contains trace amounts of mercury, and can represent a toxic waste when it is disposed of..
    K080126Smash0025A.jpg
  • A light bulb breaking as it hits the floor.  Photographed with high-speed flash of a duration of 1/1,000,000th of a second.  .
    K080126Smash0016A.jpg
  • A drip of water splashes as it hits a shallow dish of water.  The action is frozen in time with a high-speed flash with a duration of 1/20,000th of a second.  The impact of the water droplet creates a unique crown shaped splash.
    070227drip0319.jpg
  • Gray Squirrel (Sciurus carolinensis). Jumping from a branch.  This high-speed image was captured with a flash at 1/20,000th of a second.  This is a male, and he has been feeding on black walnuts.  The nuts have stained the fur around the mouth..On close inspection there is a biting fly on the back, just above the hips.
    K11jumpingsquirrel5050.jpg
  • A dish breaking as it hits the floor.  Photographed with high-speed flash of a duration of 1/1,000,000th of a second.  .
    K080127Smash0060A.jpg
  • An olive is dropped into a martini glass. The action is catpured by three different high-speed flashes each set off .01 seconds apart. Each of the three different flashes had a different colored filter over it.
    martini_00007.jpg
  • A Tennis Ball hitting a Racket .  Note the deformation of both the tennis ball and the tennis racket.  The ball has a velocity of approximately 20 meters per second in this image.  This image was photographed using high speed flash to freeze the motion taking place in 1/15,000th of a second.
    tennis8527.jpg
  • A Tennis Ball hitting a Racket .  Note the deformation of both the tennis ball and the tennis racket.  The ball has a velocity of approximately 20 meters per second in this image.  This image was photographed using high speed flash to freeze the motion taking place in 1/15,000th of a second.
    tennis8526.jpg
  • A .22 caliber bullet is fired from a rifle.  The schlieren optical system images different air pressures with different colors of light.  The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound.  The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle.   This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.
    K08-22quickshot_4400.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.
    K12coil-902.JPG
  • A .357 caliber bullet is fired from a hand gun.  The schlieren optical system images different air pressures with different colors of light.  The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound.  The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle.   This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.
    K08-357magt4426.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.
    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
  • 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 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
  • A .22 caliber bullet is fired from a rifle.  The schlieren optical system images different air pressures with different colors of light.  The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound.  The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle.   This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.
    K08-22quickshot_4398.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.
    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.
    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
  • 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.
    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.
    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
  • A black belt karate expert brakes a wooden board with his bare hand..The image was photographed using high speed flash to freeze the motion taking place in 1/15,000th of a second. .
    karate_9324.jpg
  • A .22 caliber bullet is fired from a rifle.  The schlieren optical system images different air pressures with different colors of light.  The lack of a bow wave in front of the bullets shows that the bullet is moving slower than the speed of sound.  This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.  .
    K08-22subsonic_4411.jpg
  • A .22 caliber bullet is fired from a rifle.  The schlieren optical system images different air pressures with different colors of light.  The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound.  The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle.   This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.
    K08-22quickshot_4398blue.jpg
  • The supersonic shockwave that exits the barrel a .22 caliber rifle in front of the bullet.  This pressure wave is responsible for the loud sound of the gun.  The schlieren optical system images different air pressures with different colors of light.   This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.
    K08-22quicksho4416.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
  • 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
  • A .22 caliber bullet is fired from a rifle. Here the bullet is seen in a polarizing interferometer. The different colors of light represent different air pressures. The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound. The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second.
    K20-polint-bullet_0015.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.
    K12glycerine846.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
  • A .22 caliber bullet is fired from a rifle. Here the bullet is seen in a polarizing interferometer. The different colors of light represent different air pressures. The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound. The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second.
    K20-polint-bullet_0028.jpg
  • A .22 caliber bullet is fired from a rifle. Here the bullet is seen in a polarizing interferometer. The different colors of light represent different air pressures. The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound. The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second.
    K20-polint-bullet_0015.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.
    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.
    K12glycerine851.JPG
  • A black belt karate expert brakes a wooden board with his bare hand.  The image was photographed using high speed flash to freeze the motion taking place in 1/15,000th of a second. ..
    karate_9535sm.jpg
  • A .45 caliber handgun firing a bullet.  This image freezes the motion by using a high speed flash with a duration of   1/2,000,000th of a second.  The sparks are from gunpowder that was still burring as it left the barrel behind the bullet.
    K0845calB_3822B.jpg
  • A .22 caliber bullet is fired from a rifle. The pullet is passing through a thin sheet of glass. Here the bullet is seen in a polarizing interferometer. The different colors of light represent different air pressures. The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound. The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second.
    K20-polint-bullet_0046.jpg
  • A .22 caliber bullet is fired from a rifle. The pullet is passing through a thin sheet of glass. Here the bullet is seen in a polarizing interferometer. The different colors of light represent different air pressures. The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound. The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second. The origional colors have been changed in Photoshop.
    K20-polint-bullet_0030X.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.
    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.
    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.
    K12glycerine839.JPG
  • A .45 caliber bullet exiting the gun. This image is part of a series taken 1/1,000,000th of a second apart.  The gunpowder still has velocity and will travel up to 20 feet from the point of discharge.  This gunpowder can be detected on clothing and skin to determine the location of individuals at the scene of a crime.  The schlieren optical system images different air pressures with different colors of light.   This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.
    K08-45auto-sequence1.jpg
  • A .45 caliber bullet exiting the spent gunpowder.  This event takes place approximately 6 inches in front of the gun.  The gunpowder still has velocity and will travel up to 20 feet from the point of discharge.  This gunpowder can be detected on clothing and skin to determine the location of individuals at the scene of a crime.  The schlieren optical system images different air pressures with different colors of light.   This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.
    K08-22quicksho4424.jpg
  • A .22 caliber bullet is fired from a rifle. The pullet is passing through a thin sheet of glass. Here the bullet is seen in a polarizing interferometer. The different colors of light represent different air pressures. The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound. The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second. The origional colors have been changed in Photoshop.
    K20-polint-bullet_0046X.jpg
  • A .22 caliber bullet is fired from a rifle. The pullet is passing through a thin sheet of glass. Here the bullet is seen in a polarizing interferometer. The different colors of light represent different air pressures. The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound. The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second. The origional colors have been changed in Photoshop.
    K20-polint-bullet_0046X.jpg
  • A .22 caliber bullet is fired from a rifle. The pullet is passing through a thin sheet of glass. Here the bullet is seen in a polarizing interferometer. The different colors of light represent different air pressures. The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound. The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second.
    K20-polint-bullet_0030A.jpg
  • A .45 caliber handgun firing a bullet.  This image freezes the motion by using a high speed flash with a duration of   1/2,000,000th of a second.  The sparks are from gunpowder that was still burring as it left the barrel behind the bullet.
    K0845calB_3822B2.jpg
  • A .45 caliber bullet exiting the gun. This image is part of a series taken 1/1,000,000th of a second apart.  The gunpowder still has velocity and will travel up to 20 feet from the point of discharge.  This gunpowder can be detected on clothing and skin to determine the location of individuals at the scene of a crime.  The schlieren optical system images different air pressures with different colors of light.   This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.
    K08-45auto-sequence2.jpg
  • A .22 caliber bullet is fired from a rifle. Here the bullet is seen in a polarizing interferometer. The different colors of light represent different air pressures. The clear bow wave in front of the bullets shows that the bullet is moving faster than the speed of sound. The exact velocity of this supersonic bullet can be calculated from measurements of the bow wake angle. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second.
    K20-polint-bullet_0028.jpg
  • A .45 caliber handgun firing a bullet.  This image freezes the motion by using a high speed flash with a duration of   1/2,000,000th of a second.  The sparks are from gunpowder that was still burring as it left the barrel behind the bullet.
    K0845calA_3822.jpg
  • A .45 caliber bullet exiting the gun. This image is part of a series taken 1/1,000,000th of a second apart.  The gunpowder still has velocity and will travel up to 20 feet from the point of discharge.  This gunpowder can be detected on clothing and skin to determine the location of individuals at the scene of a crime.  The schlieren optical system images different air pressures with different colors of light.   This image freezes the motion by using a high speed flash with a duration of  1/2,000,000th of a second.
    K08-45autot_4439.jpg
  • A high speed pellet hips several sugar cubes lined up.The pellet breakes the sugar crystals in the cubes to show the property of triboluminescence. Triboluminescence is an optical phenomenon in which light is generated when asymmetrical crystalline bonds in a material are broken when that material is scratched, crushed, or rubbed.
    K16pellet-sugarcubes0201B.jpg
  • A ball bounces on a spring.  A special stroboscopic camera records the motion.  The record of the motion can be analyzed to show both the timing and range of the motion.  This type of image is very important in the science of biomechanics.
    spring8081.jpg
  • A drop of milk splashes as it hits a shallow dish of coffee. The action is frozen in time with a high-speed flash with a duration of 1/20,000th of a second. The impact of the milk droplet creates a unique crown shaped splash.
    K09dripsplh002.jpg
  • A .22 caliber bullet hitting an apple. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and apple photographed at at 1/1,000,000th of a second flash/strobe speed.
    K13apple033.JPG
  • A .22 caliber bullet hitting an apple. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and apple photographed at at 1/1,000,000th of a second flash/strobe speed.
    K13apple020.JPG
  • A .22 caliber bullet hitting an apple. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and apple photographed at at 1/1,000,000th of a second flash/strobe speed.
    K13apple026.JPG
  • A .22 caliber bullet hitting an apple. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and apple photographed at at 1/1,000,000th of a second flash/strobe speed.
    apple_0021_RT8.jpg
  • A .22 caliber bullet hitting crayons. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and crayons photographed at at 1/1,000,000th of a second flash/strobe speed.
    K13HScrayons032.jpg
  • A .22 caliber bullet hitting a glass containing water. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and glass photographed at at 1/1,000,000th of a second flash/strobe speed.
    K13HSglass040.jpg
  • A .22 caliber bullet hitting an apple. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and apple photographed at at 1/1,000,000th of a second flash/strobe speed.
    K13apple043.JPG
  • A .22 caliber bullet hitting an apple. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and apple photographed at at 1/1,000,000th of a second flash/strobe speed.
    K13apple019.JPG
  • A .22 caliber bullet hitting crayons. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and crayons photographed at at 1/1,000,000th of a second flash/strobe speed.
    K13HScrayons037.jpg
  • A .22 caliber bullet hitting an apple. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and apple photographed at at 1/1,000,000th of a second flash/strobe speed.
    K13apple044.JPG
  • A .22 caliber bullet hitting an apple. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and apple photographed at at 1/1,000,000th of a second flash/strobe speed.
    K12-HSapple-2752.jpg
  • A .22 caliber bullet hitting a hot pepper. The bullet is travelling at 660 feet per second (201 meters per second). This image shows the collision of the bullet and hot pepper photographed at 1/1,000,000th of a second lash/strobe speed.
    hot-pepperbullet.jpg
  • A coffee cup smashes on the ground with a high-speed flash capturing the action at 1/15,000th of a second.
    coffee-crash58.jpg
  • A tennis ball moving at 95 feet per second, or 28.95 meters per second is captured in flight just after a collision with a  cinderblock wall. The tennis ball was launched from an air cannon as is commonly used to practice tennis.
    K18AfterCollision6922.jpg
  • A black-capped chickadee (Parus atricapillus) in Flight.  The bird has a seed in its beak.
    K07HSB-0593.jpg
  • A tennis ball moving at 95 feet per second, or 28.95 meters per second collides with a cinderblock wall. During the collision, the tennis ball compresses. In this type of Collison momentum is conserved. The tennis ball was launched from an air cannon as is commonly used to practice tennis.
    K18HittingWall6919.jpg
  • Tufted titmouse (Parus bicolor) in Flight.
    K07HSB-0879.jpg
  • A black-capped chickadee (Parus atricapillus) in Flight.
    K07HSB-0797.jpg
  • A golf club moving at 97 miles per hour (43.36 m/s) hits a stationary golf ball.  The action is recorded by a fast strobe with a duration of 1/20,000th of a second.  In all collisions momentum is conserved. .
    K07-golfb0167.jpg
  • A tennis ball moving at 95 feet per second, or 28.95 meters per second collides with a cinderblock wall. During the collision, the tennis ball compresses. In this type of Collison momentum is conserved. The tennis ball was launched from an air cannon as is commonly used to practice tennis.
    K18HittingWall6913.jpg
  • Downy woodpecker (Picoides pubescens) captured in flight.
    K07HSB-woodpecker-1294.jpg
  • A black-capped chickadee (Parus atricapillus) in Flight.  The bird has a seed in its beak.
    K07HSB-0910.jpg
  • Tufted titmouse (Parus bicolor) in Flight.
    K07HSB-0820.jpg
  • A black-capped chickadee (Parus atricapillus) in Flight.
    K07HSB-0669.jpg
  • A golf club moving at 97 miles per hour (43.36 m/s) hits a stationary golf ball.  The action is recorded by a fast strobe with a duration of 1/1,000,000th of a second.  In all collisions momentum is conserved. .
    K07-golfb0152.jpg
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Ted Kinsman

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