Search Results for 'schlieren image' | Sciencephotography.com

$A Schlieren image of a carbon dioxide gas leaving a high preasure tank. To increase the schlieren effect, the balloon is filed with pure carbon dioxide gas. The carbon dioxide gas has a different index of refraction than air, so the mixing can be clearly seen. The schlieren image identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature. This image was captured using a high speed flash with a duration of 1/1,000,000th of a second.$

$A Schlieren image of a balloon popping. To increase the schlieren effect, the balloon is filed with pure carbon dioxide gas. The carbon dioxide gas has a different index of refraction than air, so the mixing can be clearly seen when the balloon is popped. The schlieren image identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature. This image was captured using a high speed flash with a duration of 1/1,000,000th of a second.$

$A schlieren image of a glass of wine. The wine vapor and smell of the wine contains alchol that becomes visible in a schlieren system. The schlieren image identifies areas of different index of refractions. In this case the alcohol in air becomes visible.$

$A schlieren image of compressed air. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$Schlieren image of a hot light bulb. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of a Hair Dryer. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of a candle. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of a hot coffee cup. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of the aroma rising from a rose. To increase the visualization of air flow around the rose, and show how smells are transported in the air - the rose was misted with pure alcohol. The schlieren image identifies areas of different index of refraction.$

$A schlieren image of a candle and match. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of a girl smelling a rose. To increase the visualization of air flow around the rose, and show how smells are transported in the air - the rose was misted with pure alcohol. The schlieren image identifies areas of different index of refraction.$

$A schlieren image of a a man breathing through his nose. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of a gas handheld lighter being ignited. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of a man drinking hot coffee . The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of a a man breathing through his mouth. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of a man drinking hot coffee. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$

$A schlieren image of a sparkler. The schlieren images identifies areas of different temperature by using the change in the index of refraction of a fluid due to a change in temperature.$