3 dimensional 505  results

Mandelbulb fractal close-up. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Mandelbulb fractal close-up. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Mandelbulb fractal close-up. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Mandelbulb fractal close-up. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Mandelbulb fractal close-up. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Mandelbulb fractal close-up. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Mandelbulb fractal. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Mandelbulb fractal. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Mandelbulb fractal close-up. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Mandelbulb fractal close-up. Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.Computer-generated image of a three-dimensional analogue derived form a Mandelbrot Set using spherical coordinates.
MicrochipMicrochip
Schrodinger's cat, conceptual illustrationSchrodinger's cat, conceptual illustration
Moon, illustrationMoon, illustration
Moon, illustrationMoon, illustration
Moon, illustrationMoon, illustration
Moon, illustrationMoon, illustration
Moon, illustrationMoon, illustration
Moon, illustrationMoon, illustration
Moon, illustrationMoon, illustration
Moon, illustrationMoon, illustration
April 24, 2015: Photo documentary on bio printing. Zurich University of Applied Sciences (ZHAW) is working with a bio printer from regenHU to produce different human tissues. Bio printing allows three dimensional tissue production in a fast and controlled manner by the precise positioning of primary cells, biomaterials and growth factors. Thereby, bioprinted tissues simulate the complex in vivo situation of our body. Tissues are produced in a layer by layer mode by alternating photopolymerized bioink and cells. Before using for substance testing the tissue are matured in a cell culture environment.April 24, 2015: Photo documentary on bio printing. Zurich University of Applied Sciences (ZHAW) is working with a bio printer from regenHU to produce different human tissues. Bio printing allows three dimensional tissue production in a fast and controlled manner by the precise positioning of primary cells, biomaterials and growth factors. Thereby, bioprinted tissues simulate the complex in vivo situation of our body. Tissues are produced in a layer by layer mode by alternating photopolymerized bioink and cells. Before using for substance testing the tissue are matured in a cell culture environment.
Pile of numbersPile of numbers
Milky way, illustration.Milky way, illustration.
Nails and screwsNails and screws
Milky way, illustration.Milky way, illustration.
Milky way, illustration.Milky way, illustration.
Atoms against plain background, illustrationAtoms against plain background, illustration
Brontosaurus skeleton against a black backgroundBrontosaurus skeleton against a black background
Atomic structure, illustrationAtomic structure, illustration
Atomic structure, illustrationAtomic structure, illustration
Atomic structure, illustrationAtomic structure, illustration
Atomic structure, illustrationAtomic structure, illustration
Milky way, illustration.Milky way, illustration.
Atoms against blue background, illustrationAtoms against blue background, illustration
Atoms against blue background, illustrationAtoms against blue background, illustration
Atoms against blue background, illustrationAtoms against blue background, illustration
Brain damage, illustrationBrain damage, illustration
Cosmos, illustration.Cosmos, illustration.
Tip of the iceberg, conceptual illustrationTip of the iceberg, conceptual illustration
Bucky ball against black background, illustrationBucky ball against black background, illustration
Bucky ball against black background, illustrationBucky ball against black background, illustration
Tuberculosis bacteriaTuberculosis bacteria
E coliE coli
AlienAlien
Mosasaurus skeleton against a black backgroundMosasaurus skeleton against a black background
Chromosome, illustrationChromosome, illustration
AspergillusAspergillus

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