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Infrared Images(187 images)
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  • A Thermogram of an injured hand. Note the colder temperature of the index finger. The top part of the finger was lost in an accident. The lack of blood flow in the finger results in a lower 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
    Ir07-104.jpg
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  • A Thermogram of a human hand. 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
    Ir07-1040.jpg
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  • 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
    Ir07-1041.jpg
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  • A Thermogram of a young girl's legs. 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
    Ir07-1043.jpg
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  • A Thermogram of 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
    Ir07-1046.jpg
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  • A Thermogram of an injured hand. Note the colder temperature of the index finger. The top part of the finger was lost in an accident. The lack of blood flow in the finger results in a lower 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
    Ir07-105.jpg
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  • A Thermogram of 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
    ir07-1050ca...jpg
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  • A Thermogram of a woman in shower. 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
    Ir07-1056.jpg
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  • A Thermogram of a woman in shower. 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
    Ir07-1057.jpg
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  • A Thermogram of a woman in shower. 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
    Ir07-1059.jpg
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  • A Thermogram of an elderly 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
    Ir07-106.jpg
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  • A Thermogram of a boy playing with a model rocket while he drinks hot coco. A Thermogram of a boy with glasses. This image is part of a series. 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
    Ir07-1067.jpg
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  • Thermogram of steam pipes for a hot water heating system. 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
    Ir07-1077.jpg
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  • Thermogram of steam pipes for a hot water heating system. 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
    Ir07-1078.jpg
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  • Thermogram of steam pipes for a hot water heating system. 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
    Ir07-1079.jpg
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  • Thermogram of penguins. 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
    ir07-1127.jpg
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  • Thermogram of a girl eating pizza. 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
    ir07-1137.jpg
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  • Thermogram of a boy eating pizza. 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
    ir07-1142.jpg
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  • Thermogram of a boy eating pizza with a glass of cold milk. 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
    ir07-1143.jpg
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  • Thermogram of milk jug and hand. 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
    ir07-1145.jpg
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  • Thermogram of milk jug and hand. 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
    ir07-1146.jpg
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  • Thermogram of milk jug and hand. 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
    ir07-1147.jpg
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  • Thermogram of a girl eating pizza. 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
    ir07-1149.jpg
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  • A Thermogram of a boy with glasses. This image is part of a series. 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
    ir07-115.jpg
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  • A Thermogram of a boy without glasses. This image is part of a series. 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
    ir07-117.jpg
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