Downtown San Diego and USS Midway. The USS Midway was a US Navy aircraft carrier, launched in 1945 and active through the Vietnam War and Operation Desert Storm, as of 2008 a museum along the downtown waterfront in San Diego.
Location: San Diego, California
Image ID: 22430
Location: San Diego, California
Image ID: 22430
Macombs Dam Bridge. Macombs Dam Bridge is a swing bridge that spans the Harlem River in New York City, connecting the boroughs of Manhattan and the Bronx near Yankee Stadium. It is the third-oldest bridge in New York City and was designated an official landmark in January of 1992. The bridge is operated and maintained by the New York City Department of Transportation.
Location: Manhattan, New York City
Image ID: 11147
Location: Manhattan, New York City
Image ID: 11147
The Palomar Observatory, located in north San Diego County California, is owned and operated by the California Institute of Technology. The Observatory supports the research of the Caltech faculty, post-doctoral fellows and students, and the researchers at Caltechs collaborating institutions. Palomar Observatory is home to the historic Hale 200-inch telescope. Other facilities on the mountain include the 60-inch, 48-inch, 18-inch and the Snoop telescopes.
Location: Palomar Observatory, San Diego, California
Image ID: 12699
Location: Palomar Observatory, San Diego, California
Image ID: 12699
The Palomar Observatory, located in north San Diego County California, is owned and operated by the California Institute of Technology. The Observatory supports the research of the Caltech faculty, post-doctoral fellows and students, and the researchers at Caltechs collaborating institutions. Palomar Observatory is home to the historic Hale 200-inch telescope. Other facilities on the mountain include the 60-inch, 48-inch, 18-inch and the Snoop telescopes.
Location: Palomar Observatory, San Diego, California
Image ID: 12700
Location: Palomar Observatory, San Diego, California
Image ID: 12700
The Palomar Observatory, located in north San Diego County California, is owned and operated by the California Institute of Technology. The Observatory supports the research of the Caltech faculty, post-doctoral fellows and students, and the researchers at Caltechs collaborating institutions. Palomar Observatory is home to the historic Hale 200-inch telescope. Other facilities on the mountain include the 60-inch, 48-inch, 18-inch and the Snoop telescopes.
Location: Palomar Observatory, San Diego, California
Image ID: 12701
Location: Palomar Observatory, San Diego, California
Image ID: 12701
The Palomar Observatory, located in north San Diego County California, is owned and operated by the California Institute of Technology. The Observatory supports the research of the Caltech faculty, post-doctoral fellows and students, and the researchers at Caltechs collaborating institutions. Palomar Observatory is home to the historic Hale 200-inch telescope. Other facilities on the mountain include the 60-inch, 48-inch, 18-inch and the Snoop telescopes.
Location: Palomar Observatory, San Diego, California
Image ID: 12702
Location: Palomar Observatory, San Diego, California
Image ID: 12702
The Palomar Observatory, located in north San Diego County California, is owned and operated by the California Institute of Technology. The Observatory supports the research of the Caltech faculty, post-doctoral fellows and students, and the researchers at Caltechs collaborating institutions. Palomar Observatory is home to the historic Hale 200-inch telescope. Other facilities on the mountain include the 60-inch, 48-inch, 18-inch and the Snoop telescopes.
Location: Palomar Observatory, San Diego, California
Image ID: 12703
Location: Palomar Observatory, San Diego, California
Image ID: 12703
The old Point Loma lighthouse operated from 1855 to 1891 above the entrance to San Diego Bay. It is now a maintained by the National Park Service and is part of Cabrillo National Monument.
Location: Cabrillo National Monument, San Diego, California
Image ID: 14521
Location: Cabrillo National Monument, San Diego, California
Image ID: 14521
The old Point Loma lighthouse operated from 1855 to 1891 above the entrance to San Diego Bay. It is now a maintained by the National Park Service and is part of Cabrillo National Monument.
Location: Cabrillo National Monument, San Diego, California
Image ID: 14523
Location: Cabrillo National Monument, San Diego, California
Image ID: 14523
The old Point Loma lighthouse operated from 1855 to 1891 above the entrance to San Diego Bay. It is now a maintained by the National Park Service and is part of Cabrillo National Monument.
Location: Cabrillo National Monument, San Diego, California
Image ID: 14524
Location: Cabrillo National Monument, San Diego, California
Image ID: 14524
The old Point Loma lighthouse operated from 1855 to 1891 above the entrance to San Diego Bay. It is now a maintained by the National Park Service and is part of Cabrillo National Monument.
Location: Cabrillo National Monument, San Diego, California
Image ID: 14525
Location: Cabrillo National Monument, San Diego, California
Image ID: 14525
NASSCO Builder, a floating drydock operated by the National Steel and Shipbuilding Company, with a boat under construction shrouded in white within the drydock.
Location: San Diego, California
Image ID: 22342
Location: San Diego, California
Image ID: 22342
Old Point Loma Lighthouse, sitting high atop the end of Point Loma peninsula, seen here with San Diego Bay and downtown San Diego in the distance. The old Point Loma lighthouse operated from 1855 to 1891 above the entrance to San Diego Bay. It is now a maintained by the National Park Service and is part of Cabrillo National Monument.
Location: San Diego, California
Image ID: 22352
Location: San Diego, California
Image ID: 22352
Old Point Loma Lighthouse, sitting high atop the end of Point Loma peninsula, seen here with San Diego Bay and downtown San Diego in the distance. The old Point Loma lighthouse operated from 1855 to 1891 above the entrance to San Diego Bay. It is now a maintained by the National Park Service and is part of Cabrillo National Monument.
Location: San Diego, California
Image ID: 22409
Location: San Diego, California
Image ID: 22409
The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10370
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10370
The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10371
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10371
The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10372
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10372
The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10373
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10373
The Mandelbrot Fractal. Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10374
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10374
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10376
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10376
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10377
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10377
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10379
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10379
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10380
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10380
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10381
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10381
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10382
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10382
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10384
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10384
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10385
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10385
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10386
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10386
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10387
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10387
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 self-similarity, 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 = z-squared + c, operating in the complex (real, imaginary) number set.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10388
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10388