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Infrared Images(187 images)
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  • Thermogram of a young boy next to a car. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    boy-car.jpg
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  • Boy in front of a thermal camera. This image shows both the thermal image (thermogram) and the boy. A normal visible light image and a far infrared image. The different colors on the camera represent different temperatures on the boy. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature. These cameras are of particular importance for medical applications where they can be used to detect skin disorders and various medical conditions including infections. By photographer Ted Kinsman
    camera-ir07...jpg
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  • Boy in front of a thermal camera. This image shows both the thermal image (thermogram) and the boy. A normal visible light image and a far infrared image. The different colors on the camera represent different temperatures on the boy. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature. These cameras are of particular importance for medical applications where they can be used to detect skin disorders and various medical conditions including infections. By photographer Ted Kinsman
    camera-ir07...jpg
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  • Combination thermogram-visible light image of a man. This image is made from two images: A normal visible light image and a far infrared image. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature. By photographer Ted Kinsman
    combo-a-IMG...jpg
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  • A boy holding up a sheet of black plastic. This image has a corresponding visible light image. This plastic is opaque to visible light, but is transparent to far-infrared light. This image was taken inthe far-infrared. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    combo-ir07-...jpg
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  • Combination thermogram-visible light image of a woman. This image is made from two images: A normal visible light image and a far infrared image. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature. By photographer Ted Kinsman
    combo-ir07-...jpg
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  • Combination thermogram-visible light image of a boy. This image is made from two images: A normal visible light image and a far infrared image. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature. By photographer Ted Kinsman
    combo-ir07-...jpg
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  • Combination thermogram-visible light image of a man. This image is made from two images: A normal visible light image and a far infrared image. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature. By photographer Ted Kinsman
    combo-ir07-...jpg
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  • Combination thermogram-visible light image of a boy. This image is made from two images: A normal visible light image and a far infrared image. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature. By photographer Ted Kinsman
    combo-IR07-...jpg
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  • Thermogram of a boy student writing. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    desk-2.jpg
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  • Thermogram of a hot dishwasher and coffee machine. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    dish-washer.jpg
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  • A Thermogram of a hot rifle. This gun has just fired a dozen bullets and the barrel is quite hot. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    gun-1.jpg
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  • Thermogram of a meteorite. The warm meteorite is highly visible due to the difference in temperature. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    ir07-0308M.jpg
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  • Thermogram of a meteorite in a human hand. The warm meteorite is highly visible due to the difference in temperature. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    ir07-0314M.jpg
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  • A Thermogram of people walking. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-060.jpg
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  • A Thermogram of a man walking a dog. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-066.jpg
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  • A Thermogram of a young girl and her cat. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-083.jpg
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  • A Thermogram of a warm iron. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-094.jpg
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  • A Thermogram of a man with glasses. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-098.jpg
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  • A Thermogram of a man. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-099.jpg
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  • A Thermogram of a man drinking a beer. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-1002.jpg
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  • A Thermogram of a man drinking a beer. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-1003.jpg
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  • A Thermogram of a man drinking a beer. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-1006.jpg
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  • A Thermogram of a young girl and a cat. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-1034.jpg
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  • A Thermogram of a young girl and a cat. The different colors represent different temperatures on the object. The lightest colors are the hottest temperatures, while the darker colors represent a cooler temperature. Thermography uses special cameras that can detect light in the far-infrared range of the electromagnetic spectrum (900?14,000 nanometers or 0.9?14 µm) and creates an image of the objects temperature.. By photographer Ted Kinsman
    Ir07-1037.jpg
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