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Scanning Electron Microscopy(129 images)
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  • Scanning electron microscope image of a staghorn fern leaf (Platycerium holtummii) magnified 1000x. Staghorn ferns are epiphytic perennials or "air" plants. Staghorns are native to jungles in Africa and Asia . By photographer Ted Kinsman
    K07-semFERN...jpg
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  • Scanning electron microscope image of a staghorn fern leaf (Platycerium holtummii) magnified 54x. Staghorn ferns are epiphytic perennials or "air" plants. Staghorns are native to jungles in Africa and Asia . By photographer Ted Kinsman
    K07-semFERN...jpg
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  • False color scanning electron microscope image of an uncut natural diamond. Diamond is one of the crystal forms of pure carbon and is element 6 on the periodic table. Diamond is the hardest material known to science. The magnification is 200x and the calibration bar is 200 um in length. By photographer Ted Kinsman
    K07SEM-diam...jpg
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  • False color scanning electron microscope image of an uncut natural diamond. Diamond is one of the crystal forms of pure carbon and is element 6 on the periodic table. Diamond is the hardest material known to science. The magnification is 200x and the calibration bar is 200 um in length. By photographer Ted Kinsman
    K07SEM-diam...jpg
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  • False color scanning electron microscope image of an uncut natural diamond. Diamond is one of the crystal forms of pure carbon and is element 6 on the periodic table. Diamond is the hardest material known to science. The magnification is 200x and the calibration bar is 200 um in length. By photographer Ted Kinsman
    K07SEM-diam...jpg
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  • SEM of a mutant fruit fly. Scanning Electron Micrograph (SEM) of the head of a mutant fruit fly (Drosophila melanogaster). This mutant has abnormal bar shaped eyes ? they are smaller than normal and are due to the ?bar mutation?. Fruit flies are widely used in genetic experiments, particularly in mutation experiments, because they reproduce rapidly and their genetic systems are well understood. By photographer Ted Kinsman
    K07SEM-frui...jpg
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  • SEM of a mutant fruit fly. Scanning Electron Micrograph (SEM) of the head of a mutant fruit fly (Drosophila melanogaster). This mutant has abnormal bar shaped eyes ? they are smaller than normal and are due to the ?bar mutation?. Fruit flies are widely used in genetic experiments, particularly in mutation experiments, because they reproduce rapidly and their genetic systems are well understood. By photographer Ted Kinsman
    K07SEM-frui...jpg
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  • SEM of a fruit fly mouth. Scanning Electron Micrograph (SEM) of the head of a fruit fly (Drosophila melanogaster). Fruit flies are widely used in genetic experiments, particularly in mutation experiments, because they reproduce rapidly and their genetic systems are well understood. By photographer Ted Kinsman
    K07SEM-frui...jpg
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  • SEM of a mutant fruit fly. Scanning Electron Micrograph (SEM) of the head of a mutant fruit fly (Drosophila melanogaster). This mutant has abnormal size eyes ? they are smaller than normal and are due to the ?eyeless mutation?. Fruit flies are widely used in genetic experiments, particularly in mutation experiments, because they reproduce rapidly and their genetic systems are well understood. By photographer Ted Kinsman
    K07sem-frui...jpg
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  • SEM of a mutant fruit fly. Scanning Electron Micrograph (SEM) of the head of a mutant fruit fly (Drosophila melanogaster). This mutant has abnormal antena due to the ?ant? mutation. Fruit flies are widely used in genetic experiments, particularly in mutation experiments, because they reproduce rapidly and their genetic systems are well understood. By photographer Ted Kinsman
    K07SEM-frui...jpg
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  • SEM of a mutant fruit fly. Scanning Electron Micrograph (SEM) of the head of a mutant fruit fly (Drosophila melanogaster). This mutant has abnormal head parts due to the ?ant mutation?. Fruit flies are widely used in genetic experiments, particularly in mutation experiments, because they reproduce rapidly and their genetic systems are well understood. By photographer Ted Kinsman
    K07sem-frui...jpg
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  • Scanning electron microscope (SEM) of the egg (nit) of a human head louse (Pediculus humanus). Magnified 145x. By photographer Ted Kinsman
    K07SEM-head...jpg
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  • Scanning electron microscope (SEM) of the egg (nit) of a human head louse (Pediculus humanus). Magnified 500x. By photographer Ted Kinsman
    K07SEM-head...jpg
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  • False color scanning electron microscope image of a vinyl record. A record is used to store sound. It is produced by a machine with a head which vibrates in time to the sound being recorded. This cuts a groove in the record which varies according to the vibrations. A needle can then reproduce these vibrations as it runs along the groove and these, when amplified, produce the original sound. By photographer Ted Kinsman
    K07SEM-reco...jpg
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  • Scanning electron microscope image of a strawberry seed. Strawberry (Fragaria x ananassa) magnified 50x. By photographer Ted Kinsman
    K07SEM-stra...jpg
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  • Scanning electron microscope image of a strawberry seed. Strawberry (Fragaria x ananassa) magnified 50x. By photographer Ted Kinsman
    K07SEM-stra...jpg
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  • An Sem image of blue cheese, the blue color and flavor of the cheese is due to the Penicillin fungus. It is made from cow's milk using the mould Penicillin to produce the blue-green marbling. Cheese is a good source of calcium, but contains high levels of fat. This is a false color scanning electron microscope image. The image was collected at 1,000x magnification and the length bar at the bottom of the image is 20 um. By photographer Ted Kinsman
    K07SEMbluec...jpg
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  • An Sem image of blue cheese, the blue color and flavor of the cheese is due to the Penicillin fungus. It is made from cow's milk using the mould Penicillin to produce the blue-green marbling. Cheese is a good source of calcium, but contains high levels of fat. This is a false color scanning electron microscope image. The image was collected at 1,000x magnification and the length bar at the bottom of the image is 20 um. By photographer Ted Kinsman
    K07SEMbluec...jpg
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  • An Sem image of blue cheese, the blue color and flavor of the cheese is due to the Penicillin fungus. It is made from cow's milk using the mould Penicillin to produce the blue-green marbling. Cheese is a good source of calcium, but contains high levels of fat. This is a false color scanning electron microscope image. The image was collected at 1,000x magnification and the length bar at the bottom of the image is 20 um. By photographer Ted Kinsman
    K07SEMbluec...jpg
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  • A scanning electron microscope image of the leaf of the lavender plant (Lavandula augustifolia ). The branching cells give added protection from insects. The pillow shaped structure produces the aromatic sent that gives lavender it characteristic smell. By photographer Ted Kinsman
    K07semLAV4l...jpg
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  • Scanning electron microscope image of a staghorn fern leaf (Platycerium holtummii) magnified 76x. Staghorn ferns are epiphytic perennials or "air" plants. Staghorns are native to jungles in Africa and Asia . By photographer Ted Kinsman
    K08-semFERN...jpg
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  • A scanning electron microscope (SEM) image of fastskin swimsuit fabric. This fabric simulates the water flow found on the skin of sharks. Using natural materials for insperation has lead to these modern fabrics. This fabric allows swimmers to decrease fluid resistance and had lead swimmers to record times..This image is 2 mm wide and was imaged at 35x magnification. By photographer Ted Kinsman
    K08fastskin...jpg
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  • A scanning electron microscope (SEM) image of fastskin swimsuit fabric. This fabric simulates the water flow found on the skin of sharks. Using natural materials for insperation has lead to these modern fabrics. This fabric allows swimmers to decrease fluid resistance and had lead swimmers to record times..This image is 2 mm wide and was imaged at 35x magnification. By photographer Ted Kinsman
    K08fastskin...jpg
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  • SEM a Monarch Butterfly Antenna (Danaus plexippus). The fine receptors on the antenna have evolved to detect Milkweed and members of the opposite sex. This images was collected at 100x and represents a 2mm segment of the antenna... By photographer Ted Kinsman
    K08SEM-Ante...jpg
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  • SEM a Monarch Butterfly Antenna (Danaus plexippus). The fine receptors on the antenna have evolved to detect Milkweed and members of the opposite sex. This images was collected at 500x and represents a .2mm segment of the antenna... By photographer Ted Kinsman
    K08SEM-Ante...jpg
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