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  • Cologne, West Germany. Coal strip mine. This huge machine is removing the overburden soil to get at the coal seam. The two operators sit in the compartment under the boom.
    GER_03_xs.jpg
  • Sushi chef Ken Tominaga of Hana and Go Fish restaurants prepares sushi at the home of Go Fish partner and chef Cindy Pawlcyn in the Napa Valley, CA.
    USA_GoFish_060809_0855_rwx.jpg
  • Bullfight, April Fair, Seville, Spain.
    SPA_231_xs.jpg
  • Twin fishmongers in the Mercado del Ninot, Barcelona, Spain.
    SPA_205_xs.jpg
  • Members of the British Explosive Ordinance Disposal Team searching for mines and weapons caches in the Manageesh Oil Fields, near the Saudi border. More than 700 wells were set ablaze by retreating Iraqi troops creating the largest man-made environmental disaster in history.
    KUW_092_xs.jpg
  • Sushi chef Ken Tominaga of Hana and Go Fish restaurants prepares sushi at the home of Go Fish partner and chef Cindy Pawlcyn in the Napa Valley, CA..
    USA_GoFish_060809_0823_rwx.jpg
  • Juan Briceno hacks away at vegetation as he climbs one of the two large pyramids covered with trees in the Ancient Mayan city of Calakmul. Yucatan, Mexico.
    MEX_071_xs.jpg
  • Cologne, West Germany. Coal strip mine. This huge machine is removing the overburden soil to get at the coal seam. The two operators sit in the compartment under the boom.
    GER_02_xs.jpg
  • Meat being grilled in an open pit in a window display to attract hungry pedestrians at La Estancia restaurant. Buenos Aires, Argentina.
    ARG_03_xs.jpg
  • Cindy Pawlcyn and Ken Tominaga with a redfish that will be used for sushi in their new Napa Valley restaurant called Go Fish. Shot in Cindy's home kitchen in St. Helena, CA.
    USA_GoFish_060809_326.jpg
  • Cindy Pawlcyn and Ken Tominaga with tools of their trades that will be used for sushi and fish prepartion in their new Napa Valley restaurant called Go Fish. Shot in Cindy's home kitchen in St. Helena, CA.
    USA_GoFish_060809_394_rwx.jpg
  • Cindy Pawlcyn and Ken Tominaga with tools of their trades that will be used for sushi and fish prepartion in their new Napa Valley restaurant called Go Fish. Shot in Cindy's home kitchen in St. Helena, CA.
    USA_GoFish_060809_351_rwx.jpg
  • Cindy Pawlcyn and Ken Tominaga with a redfish that will be used for sushi in their new Napa Valley restaurant called Go Fish. Shot in Cindy's home kitchen in St. Helena, CA.
    USA_GoFish_060809_304_rwx.jpg
  • Sushi chef Ken Tominaga of Hana and Go Fish restaurants prepares sushi at the home of Go Fish partner and chef Cindy Pawlcyn in the Napa Valley, CA.
    USA_GoFish_060809_0925_rwx.jpg
  • Sushi chef Ken Tominaga of Hana and Go Fish restaurants prepares sushi at the home of Go Fish partner and chef Cindy Pawlcyn in the Napa Valley, CA..
    USA_GoFish_060809_0811_rwx.jpg
  • Maui, Waikamoi.
    USA_HI_27_nxs.jpg
  • Rice: rice harvest. Richvale, California, USA. 1980.
    USA_AG_RICE_21_xs.jpg
  • Cindy Pawlcyn and Ken Tominaga with a redfish that will be used for sushi in their new Napa Valley restaurant called Go Fish. Shot in Cindy's home kitchen in St. Helena, CA.
    USA_GoFish_060809_309_rwx.jpg
  • Sushi chef Ken Tominaga of Hana and Go Fish restaurants prepares sushi at the home of Go Fish partner and chef Cindy Pawlcyn in the Napa Valley, CA.
    USA_GoFish_060809_0932_rwx.jpg
  • Wind farm producing electricity at Altamont, California. Wind turbines. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1985).
    USA_SCI_ENGY_51_xs.jpg
  • Wind farm producing electricity at Tehachapi Pass, southern California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1983).
    USA_SCI_ENGY_53_xs.jpg
  • Wind farm producing electricity at Tehachapi Pass, southern California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1989).
    USA_SCI_ENGY_49_xs.jpg
  • Wind farm producing electricity at Altamont, California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1985).
    USA_SCI_ENGY_50_xs.jpg
  • Wind farm producing electricity at San Gorgonio Pass, near Palm Springs, California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1986).
    USA_SCI_ENGY_48_xs.jpg
  • Wind farm producing electricity at Altamont, California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1985).
    USA_SCI_ENGY_47_xs.jpg
  • Wind farm producing electricity at Altamont, California. Wind turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1985).
    USA_SCI_ENGY_55_xs.jpg
  • Wind farm producing electricity at Tehachapi Pass, southern California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1983).
    USA_SCI_ENGY_54_xs.jpg
  • Wind farm producing electricity at Tehachapi Pass, southern California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1983).
    USA_SCI_ENGY_52_xs.jpg
  • Fearsome sawblades spinning, Pretty Hate Machine menaces the competition at Robot Wars, a two-day festival of mechanical destruction at San Francisco's Fort Mason Center. Organized by Marc Thorpe, a former Industrial Light and Magic model builder, the cybernetic slugfest spawned a six-week BBC-TV series and many similar events. Pretty Hate Machine is a middleweight-class machine; two wheelchair motors power a Rube Goldberg assembly of rods, rubber belts and saw blades. A real crowd-pleaser, Pretty Hate Machine was one of the few walking robots in a competition dominated by wheeled or tracked machines. California. From the book Robo sapiens: Evolution of a New Species, page 200-201.
    USA_rs_396_qxxs.jpg

Peter Menzel Photography

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