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  • 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
  • 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
  • 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
  • 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
  • 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
  • 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_4398.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 .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
  • 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 .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
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