Show Navigation
All Galleries
Add to Cart Download

High-Speed

194 images Created 18 Oct 2008

Loading ()...

  • Here a candle is seen in a polarizing interferometer. The different colors of light represent different air pressures. This image freezes the motion by using a high speed flash with a duration of 1/2,000,000th of a second.
    K20-polint-candle_8452.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_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.
    K20-polint-bullet_0030A.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
  • 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
  • Falling toast photographed with a 25 hz strobe.  That is the flash is set off 25 times a second..The falling toast is said to always land buttered side down.
    K12-strobotoast7817.jpg
  • .This is a demonstration of a ball rolling down an incline and making the loop-the-loop path.  The velocity required to make the loop is called the critical velocity.   The analysis of this demo requires the use of the centripetal force, kinetic energy, potential energy, rolling energy, and friction.  This is also an example of a critical velocity.  The loop is 19.5 cm in diameter and the ball is 2.5 cm in diameter. The flash illuminates the scene at 40 hz showing images every  .025 seconds of time. .
    K12-full-loop8115white.jpg
  • .This is a demonstration of a ball rolling down an incline. The analysis of this demo requires the use of the  kinetic energy, potential energy, rolling energy, and friction.   The  ball is 2.5 cm in diameter. The flash illuminates the scene at 40 hz showing images every  .025 seconds of time. .
    K12-full-lAccel8115red.jpg
  • K09wimshurst_2265.jpg
  • K09wimshurst_2267.jpg
  • K09quartz-2294.jpg
  • Blue Jay, Cyanocitta cristata, captured in flight.
    K12-blue-jay-4780.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
  • 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
  • Northern cardinal male (Cardinalis cardinalis). This bird war captured in flight by a high speed flash.
    K12-car-bird4747.jpg
  • Eastern Chipmunk (Tamias striatus) jumping. Photographed with a high speed flash. This particular chipmunk was able to jump one meter back and forth between a stick and a bird feeder.  The chipmunk was trained to make the jump by moving the stick about 12 cm further from the feeder each day.
    K12-chipmunk-6092.jpg
  • Eastern Chipmunk (Tamias striatus) jumping. Photographed with a high speed flash. This particular chipmunk was able to jump one meter back and forth between a stick and a bird feeder.  The chipmunk was trained to make the jump by moving the stick about 12 cm further from the feeder each day.
    K12-chipmunk-6107.jpg
  • Eastern Chipmunk (Tamias striatus) jumping. Photographed with a high speed flash. This particular chipmunk was able to jump one meter back and forth between a stick and a bird feeder.  The chipmunk was trained to make the jump by moving the stick about 12 cm further from the feeder each day.
    K12-chipmunk-6094.jpg
  • Eastern Chipmunk (Tamias striatus) jumping. Photographed with a high speed flash. This particular chipmunk was able to jump one meter back and forth between a stick and a bird feeder.  The chipmunk was trained to make the jump by moving the stick about 12 cm further from the feeder each day.
    K12-chipmunk-6002.jpg
  • White-breasted nuthatch (Sitta carolinensis) in flight.  Captured with a stroboscopic flash.
    K12-nuthatch6557.jpg
  • Eastern Chipmunk (Tamias striatus) jumping. Photographed with a high speed flash. This particular chipmunk was able to jump one meter back and forth between a stick and a bird feeder.  The chipmunk was trained to make the jump by moving the stick about 12 cm further from the feeder each day.
    K12-chipmunk-6032.jpg
  • Northern cardinal male (Cardinalis cardinalis). This bird war captured in flight by a high speed flash.
    K12-card-bird5839.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
  • 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
  • .This is a demonstration of a ball rolling down an incline and almost making the loop-the-loop path.  The ball does not have enough velocity to make the loop.  The velocity required to make the loop is called the critical velocity, and this show a situation where the ball leaves the surface of the track, or the normal force from the track on the ball is zero.  The analysis of this demo requires the use of the centripetal force, kinetic energy, potential energy, rolling energy, and friction.  This is also an example of a sub critical velocity.  The loop is 19.5 cm in diameter and the ball is 2.5 cm in diameter. The flash illuminates the scene at 40 hz showing images every  .025 seconds of time. .
    K12-looploop8096.jpg
  • The motion of a planets orbit around a star is simulated by rolling a ball on a curved surface of plastic..
    K11-gravitywell009.JPG
  • A pen is tossed in a strobe light.  The strobe flashes 250 times a second.  The baton rotates around its center of mass and follows parabolic motion.
    K12-strobo-pen7889.jpg
  • A baton is tossed in a strobe light.  The strobe flashes 250 times a second.  The baton rotates around its center of mass and follows parabolic motion.
    K12-strobo-stick7844 copy.jpg
  • Falling toast photographed with a 25 hz strobe.  That is the flash is set off 25 times a second..The falling toast is said to always land buttered side down.
    K12-strobotoast7840.jpg
  • .This is a demonstration of a ball rolling down an incline. The analysis of this demo requires the use of the  kinetic energy, potential energy, rolling energy, and friction.   The  ball is 2.5 cm in diameter. The flash illuminates the scene at 40 hz showing images every  .025 seconds of time. .
    K12-full-lAccel8115blue.jpg
  • Falling toast photographed with a 25 hz strobe.  That is the flash is set off 25 times a second..The falling toast is said to always land buttered side down.
    K12-strobotoast7838.jpg
  • A baton is tossed in a strobe light.  The strobe flashes 250 times a second.  The baton rotates around its center of mass and follows parabolic motion.
    K12-strobo-stick7845.jpg
  • .This is a demonstration of a ball rolling down an incline and almost making the loop-the-loop path.  The ball does not have enough velocity to make the loop.  The velocity required to make the loop is called the critical velocity, and this show a situation where the ball leaves the surface of the track, or the normal force from the track on the ball is zero.  The analysis of this demo requires the use of the centripetal force, kinetic energy, potential energy, rolling energy, and friction.  This is also an example of a sub critical velocity.  The loop is 19.5 cm in diameter and the ball is 2.5 cm in diameter. The flash illuminates the scene at 40 hz showing images every  .025 seconds of time. .
    K12-looploop8096white.jpg
  • Girl placing her hand on a Van de Graaff electrostatic generator, a device that transmits excess electrons. Strands of the young woman's hair repel each other because they are similarly charged; the child's hairstyle displays electric field lines.
    K11-vandeMere002.JPG
  • This image is part of a sequence where a man over inflates a balloon until it burst.  The image was taken with a high speed flash system. The motion is effectively frozen in time due to the short duration of the flash (1/20,000 th of a second). The balloon was filled with a few milliliters of water before it was inflated. When the balloon is popped, the gas quickly expands and cools. This cooling converts the water vapor in the balloon into suspended water droplets which can be seen as a cloud.
    K11-hsballoon6863A.jpg
  • Girl placing her hand on a Van de Graaff electrostatic generator, a device that transmits excess electrons. Strands of the young woman's hair repel each other because they are similarly charged; the child's hairstyle displays electric field lines.
    K11-vandeMere007.JPG
  • Falling toast photographed with a 25 hz strobe.  That is the flash is set off 25 times a second..The falling toast is said to always land buttered side down.
    K12-strobotoast7837 copy.jpg
  • K12-strobo-stick7854.jpg
  • A baton is tossed in a strobe light.  The strobe flashes 250 times a second.  The baton rotates around its center of mass and follows parabolic motion.
    K12-strobo-stick7850.jpg
  • Girl placing her hand on a Van de Graaff electrostatic generator, a device that transmits excess electrons. Strands of the young woman's hair repel each other because they are similarly charged; the child's hairstyle displays electric field lines.
    K11-vandeMere005.JPG
  • This image is part of a sequence where a man over inflates a balloon until it burst.  The image was taken with a high speed flash system. The motion is effectively frozen in time due to the short duration of the flash (1/20,000 th of a second). The balloon was filled with a few milliliters of water before it was inflated. When the balloon is popped, the gas quickly expands and cools. This cooling converts the water vapor in the balloon into suspended water droplets which can be seen as a cloud.
    K11-hsballoon6873A.jpg
  • This image is part of a sequence where a man over inflates a balloon until it burst.  The image was taken with a high speed flash system. The motion is effectively frozen in time due to the short duration of the flash (1/20,000 th of a second). The balloon was filled with a few milliliters of water before it was inflated. When the balloon is popped, the gas quickly expands and cools. This cooling converts the water vapor in the balloon into suspended water droplets which can be seen as a cloud.
    K11-hsballoon6826.JPG
  • A baton is tossed in a strobe light.  The strobe flashes 250 times a second.  The baton rotates around its center of mass and follows parabolic motion.
    K12-strobo-stick7843.jpg
  • .This is a demonstration of a ball rolling down an incline and making the loop-the-loop path.  The velocity required to make the loop is called the critical velocity.   The analysis of this demo requires the use of the centripetal force, kinetic energy, potential energy, rolling energy, and friction.  This is also an example of a critical velocity.  The loop is 19.5 cm in diameter and the ball is 2.5 cm in diameter. The flash illuminates the scene at 40 hz showing images every  .025 seconds of time. .
    K12-full-loop8115red.jpg
  • Falling toast photographed with a 25 hz strobe.  That is the flash is set off 25 times a second..The falling toast is said to always land buttered side down.
    K12-strobotoast7818.jpg
  • As an individual piece of spaghetti is broken, the spaghetti fractures into several pieces that fly off..The exact  reason that compressive and tension forces cause the spaghetti to break in this is currently under study.   Spaghetti breaks in the same way as smokestacks break when they fall during demolition.  This breaking patter is often called the “smokestack problem”  The motion was captured with a 1/20,000th of a second flash, while the room lights were responsible for the blur in the photograph..
    K11-Spaghetti001.jpg
  • A stone is dropped in water, creating a splash.
    K09watersplash5343.jpg
  • K09quartz-2261.jpg
  • A mallet is used to smash an apple.
    K09malletsmash5614.jpg
  • A stroboscopic image of a hand rolling a pair of dice.
    K09dice4507.jpg
  • A lemon is dropped in water, creating a splash.
    K09watersplash5512.jpg
  • Boy juggling three multi-colored light-up balls.
    K09juggler4873.jpg
  • A stroboscopic image of a hammer striking a nail into wood.
    K09hammer4403.jpg
  • An ice cube is dropped in water, creating a splash.
    K09watersplash5407.jpg
  • A stroboscopic image of a hammer striking a nail into wood.
    K09hammer4266.jpg
  • A candy is hit with a hammer 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.
    K09candyrA.jpg
  • A tomato is dropped in water, creating a splash.
    K09watersplash5436.jpg
  • A paintball is fired directly at the vertical edge of a razor blade.
    K09paintball4673.jpg
  • A paintball is fired into an egg.
    K09paintball4710.jpg
  • Boy juggling three flaming torches.
    K09juggler4842.jpg
  • Boy juggling three flaming torches.
    K09juggler4866.jpg
  • A stroboscopic image of a hand flipping a coin.
    K09coin4593.jpg
  • A lemon is dropped in water, creating a splash.
    K09watersplash5511.jpg
  • A mallet is used to smash a green apple.
    K09malletsmash5595.jpg
  • Boy juggling three juggling pins.
    K09juggler4815.jpg
  • A stroboscopic image of a hand rolling a pair of dice.
    K09dice4468.jpg
  • A stroboscopic image of a hand flipping a coin.
    K09coin4557.jpg
  • An apple is dropped in water, creating a splash.
    K09watersplash5508.jpg
  • Boy juggling three flaming torches.
    K09juggler4860.jpg
  • A paintball is fired directly at the vertical edge of a razor blade.
    K09paintball4678.jpg
  • Boy juggling three flaming torches.
    K09juggler4833.jpg
  • A stroboscopic image of a hand rolling dice.
    K09dice4486.jpg
  • Boy juggling three balls.
    K09juggler4787.jpg
  • A paintball is fired directly at the vertical edge of a razor blade.
    K09paintball4661.jpg
  • A candy is hit with a hammer 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.
    K09candyrB1-small.jpg
  • A green apple is dropped in water, creating a splash.
    K09watersplash5496.jpg
  • A stroboscopic image of a hand flipping a coin.
    K09coin4553.jpg
  • A stone is dropped in water, creating a splash.
    K09watersplash5377.jpg
  • A paintball is fired into an egg.
    K09paintball4707.jpg
  • A paintball is fired directly at the vertical edge of a razor blade.
    K09paintball4694.jpg
  • A paintball is fired directly at the vertical edge of a razor blade.
    K09paintball4684.jpg
  • A stroboscopic image of a hand flipping a coin.
    K09coin4593.jpg
  • A paintball is fired into an egg.
    K09paintball4713.jpg
  • Milk is splashed out of a cup.  The motion is captured with high speed photography.
    K09milkspl5652.jpg
  • An ice cube is dropped in water, creating a splash.
    K09watersplash5414.jpg
  • A stroboscopic image of a hand flipping a coin.
    K09coin4576.jpg
  • Boy juggling three multi-colored light-up balls.
    K09juggler4877.jpg
  • A stroboscopic image of a hand rolling dice.
    K09dice4477.jpg
  • A candy is hit with a hammer 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.
    K09candyrB1.jpg
  • A stroboscopic image of playing dice being rolled.
    K09dice4540.jpg
  • A stroboscopic image of a hammer striking a nail into wood.
    K09hammer4388.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
  • K09popcorn2004A.jpg
  • K09popcorn1914.jpg
  • K09popcorn1BCU.jpg
  • K09milkdrp2214.jpg
  • K09milkdrp2210.jpg
  • K09milkdrp2205.jpg
Next
View: 100 | All
  • Facebook
  • Twitter
x

Ted Kinsman

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