


Detail within the Mandelbrot set fractal. This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 10416
Species: Mandelbrot Fractal, Mandelbrot set  Detail within the Mandelbrot set fractal. This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 10417
Species: Mandelbrot Fractal, Mandelbrot set  Detail within the Mandelbrot set fractal. This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 10418
Species: Mandelbrot Fractal, Mandelbrot set 



Detail within the Mandelbrot set fractal. This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 10419
Species: Mandelbrot Fractal, Mandelbrot set  Detail within the Mandelbrot set fractal. This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 10420
Species: Mandelbrot Fractal, Mandelbrot set  Detail within the Mandelbrot set fractal. This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 10421
Species: Mandelbrot Fractal, Mandelbrot set 



Detail within the Mandelbrot set fractal. This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 10422
Species: Mandelbrot Fractal, Mandelbrot set  Detail within the Mandelbrot set fractal. This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 10423
Species: Mandelbrot Fractal, Mandelbrot set  The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18724
Species: Mandelbrot Fractal, Mandelbrot set 



Fractal design. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18725
Species: Mandelbrot Fractal, Mandelbrot set  The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18726
Species: Mandelbrot Fractal, Mandelbrot set  The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18727
Species: Mandelbrot Fractal, Mandelbrot set 



The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18728
Species: Mandelbrot Fractal, Mandelbrot set  The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18730
Species: Mandelbrot Fractal, Mandelbrot set  Fractal design. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18733
Species: Mandelbrot Fractal, Mandelbrot set 



Fractal design. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18734
Species: Mandelbrot Fractal, Mandelbrot set  Fractal design. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18735
Species: Mandelbrot Fractal, Mandelbrot set  The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18736
Species: Mandelbrot Fractal, Mandelbrot set 



The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18738
Species: Mandelbrot Fractal, Mandelbrot set  The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by selfsimilarity, or the tendency for the details of a shape to appear similar to the shape itself. Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves. Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns. The basic iterative expression for the Mandelbrot set is z = zsquared + c, operating in the complex (real, imaginary) number set.
Image ID: 18740
Species: Mandelbrot Fractal, Mandelbrot set  Squaretail coralgrouper (upper) and spotted coralgrouper (lower).
Image ID: 08835
Species: Squaretail coralgrouper, Plectropomus areolatus, Plectropomus maculatus 



Squaretail coralgrouper (upper) and spotted coralgrouper (lower).
Image ID: 08836
Species: Squaretail coralgrouper, Plectropomus areolatus, Plectropomus maculatus  Squaretail coralgrouper (upper) and spotted coralgrouper (lower).
Image ID: 08837
Species: Squaretail coralgrouper, Plectropomus areolatus, Plectropomus maculatus  Squaretail coralgrouper.
Image ID: 08838
Species: Squaretail coralgrouper, Plectropomus areolatus 



Squaretail coralgrouper.
Image ID: 08839
Species: Squaretail coralgrouper, Plectropomus areolatus  Squaretail coralgrouper.
Image ID: 08840
Species: Squaretail coralgrouper, Plectropomus areolatus  Squaretail coralgrouper.
Image ID: 08841
Species: Squaretail coralgrouper, Plectropomus areolatus 



Squaretail coralgrouper.
Image ID: 08842
Species: Squaretail coralgrouper, Plectropomus areolatus  Squaretail coralgrouper.
Image ID: 08843
Species: Squaretail coralgrouper, Plectropomus areolatus  Squarespot fairy basslet, male coloration.
Image ID: 08849
Species: Squarespot fairy basslet, Pseudanthias pleurotaenia 
