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  • Felipe Adams, a 30-year-old Iraq war veteran who was paralyzed by a sniper's bullet in Baghdad, Iraq. (Felipe Adams is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    USA_080910_043_xw.jpg
  • Todd Kincer, a coal miner, with his face blackened with coal dust after an industrious day at work in a coal mine located deep inside a mountain in the Appalachians near the town of Whitesburg, Kentucky. (Todd Kincer is featured in the book What I Eat: Around the World in 80 Diets.) After showering and scrubbing off the day's coal dust, Todd gets ready to dig in to one of his favorite meals: Hamburger Helper with double noodles. A college graduate drawn to the coal mine by the relatively high pay, Todd spends a 10-hour shift mining underground, driving a low-slung electric shuttle car that carries coal from the face of the coal seam, where it's being chewed up by a deafening, dusty mining machine, to a conveyer belt. The coal mine in which Kincer works is pitch-black, except for headlights and headlamps. During winter months, Todd never sees daylight during the workweek. MODEL RELEASED.
    USA_080428_057_xw.jpg
  • Professional Sumo Team (Musahigawa Beya) practicing in Tokyo, Japan. Wrestlers of the Professional Sumo Team (Musahigawa Beya) go through practice routines at their stable in Tokyo, Japan.
    Japan_JAP_060601_282_xw.jpg
  • Wrestlers of the Professional Sumo Team (Musahigawa Beya) go through practice routines at their stable in Tokyo, Japan. Younger, smaller, and less experienced sumo wrestlers go through exercises emphasizing team unity at the end of a grueling morning practice. (From the book What I Eat: Around the World in 80 Diets.)
    Japan_JAP_060601_326_xxw.jpg
  • A wrestler with the Professional Sumo Team (Musahigawa Beya) during practice before a tournament in Nagoya, Japan.
    Japan_JAP_060629_296_xw.jpg
  • Masato Takeuchi (at left, his ring name is Miyabiyama), a sumo wrestler at the junior champion level (sekiwale)  touches an opponent who he has thrown to the ground during practice for a tournament in Nagoya, Japan. (Masato Tekeuchi is featured in the book What I Eat: Around the World in 80 Diets.)  Miyabiyama is one of the largest of the Japanese sumos and would probably have moved up even further in the ranks had he not suffered a severe shoulder injury. He is only just now returning to matches. MODEL RELEASED.
    Japan_JAP_060629_234_xw.jpg
  • A sumo wrestler who is a member of the Professional Sumo Team (Musahigawa Beya) does stretching exercises between practice bouts in Nagoya, Japan, in preparation for a tournament.
    Japan_JAP_060629_081_xw.jpg
  • Masato Takeuchi (ring name Miyabiyama), a sumo wrestler at the junior champion level (sekiwale) is the premier wrestler of the Musashigawa Beya, based in Tokyo, Japan.   (Masato Tekeuchi is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP_060629_001_xw.jpg
  • Professional Sumo Team (Musahigawa Beya) practicing in Nagoya, Japan before a tournament.
    Japan_JAP_060628_350_xw.jpg
  • Takeuchi Masato (inside ring, right), a professional sumo wrestler whose ring name is Miyabiyama (meaning Graceful Mountain), at practice in Nagoya, Japan, just before a tournament.  (Takeuchi Masato is featured in the book What I Eat, Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP_060628_286_xw.jpg
  • A member of the Professional Sumo Team (Musahigawa Beya) during practice in Nagoya, Japan, before a tournament.
    Japan_JAP_060628_254_xw.jpg
  • Wrestlers of the Professional Sumo Team (Musahigawa Beya) practicing in Nagoya, Japan before a tournament.
    Japan_JAP_060628_039_xw.jpg
  • Professional Sumo Team (Musahigawa Beya) practicing in Nagoya, Japan before a tournament.
    Japan_JAP_060628_024_xw.jpg
  • Wrestlers of the Professional Sumo Team (Musahigawa Beya) go through practice routines at their stable in Tokyo, Japan.  Sumos cook and eat chanko nabe, a stew pot of vegetable and meat or fish, at nearly every meal. It  is eaten with copious amounts of rice and numerous side dishes. Miyabiyama eats now to maintain his weight rather than to gain it, unlike the younger less gargantuan wrestlers in his stable who are eating a lot to pack on weight.
    Japan_JAP_060601_340_xw.jpg
  • Wrestlers of the Professional Sumo Team (Musahigawa Beya) go through practice routines at their stable in Tokyo, Japan. A professional sumo wrestler sends his opponent tumbling to the floor during practice with his team.
    Japan_JAP_060601_271_xw.jpg
  • Professional sumo wrestler Takeuchi Masato (ring name Miyabiyama- Graceful Mountain), practicing for a tournament in Nagoya, Japan.  (Takeuchi Masato is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP_060601_222_xw.jpg
  • Professional sumo wrestler Takeuchi Masato (ring name Miyabiyama- Graceful Mountain), practicing for a tournament in Nagoya, Japan.  (Takeuchi Masato is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP_060601_192_xw.jpg
  • Professional sumo wrestler Takeuchi Masato (ring name Miyabiyama- Graceful Mountain), practicing for a tournament in Nagoya, Japan.  (Takeuchi Masato is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP_060601_073_xw.jpg
  • Professional sumo wrestler Takeuchi Masato (ring name Miyabiyama- Graceful Mountain), practicing for a tournament in Nagoya, Japan.  (Takeuchi Masato is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP060628sumo778_xw.jpg
  • Takeuchi Masato, a professional sumo wrestler whose ring name is Miyabiyama (meaning "Graceful Mountain"), with his day's worth of food in the team's practice ring in Nagoya, Japan. (From the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP06_sumocomb_0060628_623_746...jpg
  • A supporter at a pro-Chavez demonstration in  in support of proposed constitutional reforms giving him more power in Caracas, Venezuela in November 2007.
    VEN_071104_075_xw.jpg
  • A wrestler tidies up the ring during break in practice for a tournament in Nagoya, Japan.
    Japan_JAP_060629_350_xw.jpg
  • Wrestlers of the Professional Sumo Team (Musahigawa Beya) tussle in the center of the ring in Nagoya, Japan as Miyabiyama, the premier fighter of the stable, watches.
    Japan_JAP_060629_325_xw.jpg
  • A wrestler with the Professional Sumo Team (Musahigawa Beya) during practice before a tournament in Nagoya, Japan.
    Japan_JAP_060629_297_xw.jpg
  • Masato Takeuchi (at left, his ring name is Miyabiyama), a sumo wrestler at the junior champion level (sekiwale)  with members of his team during practice a tournament in Nagoya, Japan. (Masato Tekeuchi is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP_060629_245_xw.jpg
  • Masato Takeuchi (at right, his ring name is Miyabiyama), a sumo wrestler at the junior champion level (sekiwale) charges at his opponent during practice a tournament in Nagoya, Japan. (Masato Tekeuchi is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP_060629_203_xw.jpg
  • Masato Takeuchi (ring name Miyabiyama), a sumo wrestler at the junior champion level (sekiwale) practices for a tournament in Nagoya, Japan. (Masato Tekeuchi is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    Japan_JAP_060629_182_xw.jpg
  • Wrestlers of the Professional Sumo Team (Musahigawa Beya) go through agressive practice bouts at their stable in Tokyo, Japan.
    Japan_JAP_060601_008_xw.jpg
  • Simulated lightning strike to a sailboat model in lab. Institution för Hopspänningsforkning, Husbyborg, Uppsala, Sweden. Engineer - Eric Löfberg (1991).Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius.
    SWE_SCI_LIG_02_xs.jpg
  • Arizona. Lightning. Time exposure image of lightning strikes over Tucson, Arizona, USA..The silhouette of a giant saguaro cactus (Carnegiea gigantea) is in the foreground at right and left. Car tail light trails are also seen in the foreground. Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius. Photographed in Tucson, Arizona, USA. .
    USA_AZ_06_xs.jpg
  • Launching weather balloon with field mills into storm. Balloon is 1500 cubic feet surplus nylon with fins that is tethered and carries an electronic field meter. Langmuir Atmospheric Research Lab on Mt. Baldy, New Mexico (1992) Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius.
    USA_SCI_LIG_17_xs.jpg
  • Launching weather balloon with field mills into an approaching electrical lightning storm. Langmuir Atmospheric Research Lab on Mt. Baldy, New Mexico (1992) Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius.
    USA_SCI_LIG_14_xs.jpg
  • Launching weather balloon with field mills into an approaching electrical lightning storm.. Langmuir Atmospheric Research Lab on Mt. Baldy, New Mexico (1992) Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius..
    USA_SCI_LIG_13_xs.jpg
  • Summer lightning storm over Tucson, Arizona from Tumamoc Hill with Saguaro cactus. Storms erupt regularly during Arizona summers due to the moist air that flows in from the Gulf of California then collides with nearby mountains and is forced upward, where it condenses into thunderclouds. ..Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius. Tucson, Arizona, USA. (1992)
    USA_SCI_LIG_01_xs.jpg
  • Summer lightning storm over Tucson, Arizona from Tumamoc Hill with Saguaro cactus. Storms erupt regularly during Arizona summers due to the moist air that flows in from the Gulf of California then collides with nearby mountains and is forced upward, where it condenses into thunderclouds. ..Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius. Tucson, Arizona, USA. (1992)
    USA_SCI_LIG_001_nxs.jpg
  • Simulated lightning strike to a TV antenna wire, exploding the wire. Institution for Hopspänningsforkning, Husbyborg, Uppsala, Sweden. Engineer - Eric Löfberg. (1991).Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius.
    SWE_SCI_LIG_01_xs.jpg
  • Lightning demonstration strikes model house and church with impulses of up to 800,000 volts. Deutsches Museum, Munich, Germany. 1991..Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius.
    GER_SCI_LIG_01_xs.jpg
  • Virtual reality: data suit design. John Bumgarner at VPL Research Inc., Redwood City, California, discussing technical points relating to the design of the blue data suit being worn by Lou Ellen Jones on left. VPL produces virtual reality systems - computer generated graphical environments that a user may enter & interact with. Visual contact is provided by a headset equipped with 3-D goggles. A spatial sensor on the headset (to fix the user's position in space) and numerous optical fiber sensors woven into the data suit relay data back to the computer. The forerunner to the data suit is the data glove, which restricted the user's virtual interaction to hand gestures. Model Released (1990)
    USA_SCI_VR_33_xs.jpg
  • FIRST CONTACT: "FETALFONE" Photo Illustration for the Future of Communication GEO (Germany) Special Issue. Fictional Representation and Caption: The Smith's of Vallejo, California were not certain that the latest hi-tech form of giving their (unborn) child a headstart was effective, but it sure was fun to see Junior react to their voice on his "fetalfone". It was true that the youngster could only use it to listen (even if he could talk, it would very difficult in the amniotic fluid), but they enjoyed the idea that their offspring would be comfortable with a cell phone from Day Minus-90 to Day One when he popped out. The flat screen imaging unit affords the parents (and in this case older sister) the opportunity to track the unborn's development and also watch his reactions when they talk to him on the "Fetalfone". [Fetus with "Fetalfone" shown on "Babewatch", fetus-scan home imaging system can be monitored by absent parent via Internet.] MODEL RELEASED.
    USA_SCI_COMM_02_xs.jpg
  • Lightning research. Scientists prepare a rocket designed to fly into a thunderstorm and trigger a bolt of lightning. The rocket trails a fine copper wire, providing an easy path for the lightning to reach Earth. This allows the scientists to measure the current, voltage and other parameters of the lightning bolts. To ensure safety, the rocket is launched by blowing through a tube to activate a pneumatic switch. This prevents the operator from making accidental electrical contact with the lightning. Photographed at Mount Baldy, New Mexico USA.
    USA_SCI_RCKT_07_xs.jpg
  • Summer lightning storm over Tucson, Arizona from Tumamoc Hill with Saguaro cactus. Storms erupt regularly during Arizona summers due to the moist air that flows in from the Gulf of California then collides with nearby mountains and is forced upward, where it condenses into thunderclouds. ..Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius. Tucson, Arizona, USA. (1992)
    USA_SCI_LIG_36_xs.jpg
  • Summer lightning storm over Tucson, Arizona from Tumamoc Hill with Saguaro cactus. Storms erupt regularly during Arizona summers due to the moist air that flows in from the Gulf of California then collides with nearby mountains and is forced upward, where it condenses into thunderclouds. ..Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius. Tucson, Arizona, USA. (1992)
    USA_SCI_LIG_02_xs.jpg
  • Virtual reality: fitting adjustments being made to a data suit (blue, center) by Lou Ellen Jones, Asif Emon and Bea Holster at VPL research, Redwood City, California. VPL specializes in virtual or artificial reality systems, the production of computer-generated graphical environments that users may enter. Visual contact with such artificial worlds is provided by a headset equipped with 3-D goggles. A spatial sensor on the headset (to fix the user's position in space) and numerous optical fiber sensors woven into the data suit, relay data back to the computer. The forerunner to the data suit is the data glove, which restricted the user's virtual interaction to hand gestures. Model Released (1990)
    USA_SCI_VR_34_xs.jpg
  • Virtual reality: Ralph Hollis, IBM, NY "Feeling" Gold Atoms working with a scanning tunneling microscope (STM) (at right) linked to a tele-robotic manipulation system with atomic scale force-feedback. The minute movements of the STM's probe as its traverses the gold sample surface is linked to a force-feedback magic wrist, enabling the scientist, whose hand is in contact with the magic wrist, to feel the texture of the gold atoms. In background is a false-color STM image of the gold surface, revealing the cobbled pattern of individual atoms. The photo was taken at IBM's Thomas Watson Research Centre, Yorktown Heights, New York. Model Released (1990)
    USA_SCI_VR_02_xs.jpg
  • Virtual reality: Ralph Hollis, IBM, NY "Feeling" Gold Atoms working with a scanning tunneling microscope (STM) (at right) linked to a tele-robotic manipulation system with atomic scale force-feedback. The minute movements of the STM's probe as its traverses the gold sample surface is linked to a force-feedback magic wrist, enabling the scientist, whose hand is in contact with the magic wrist, to feel the texture of the gold atoms. In background is a false-color STM image of the gold surface, revealing the cobbled pattern of individual atoms. The photo was taken at IBM's Thomas Watson Research Centre, Yorktown Heights, New York. (1990)
    USA_SCI_VR_01_xs.jpg
  • FINAL CONTACT: "GRAVEWATCH".  Photo Illustration for the Future of Communication GEO (Germany) Special issue. Fictional Representation and Caption: Interactive gravestones became quite popular in the 21st century. Adding snippets of video of the diseased was quite easy to program since nearly every family had extensively documented their family time with small digital videocams. AI (artificial intelligence) computer programs made conversations with the dead quite easy. These virtual visits to the underworld became passé within a decade however, and graveyard visits became less common. By mid-century many people wanted to insure that their relatives would continue paying their respects, and keeping their memory alive. New technology insured regular visits to the gravesite to pick up a monthly inheritance check issued electronically by a built-in device with wireless connection to the living relative's bank account. Face recognition (and retinal scanners on high-end models) insured that family members were present during the half-hour visits. A pressure pad at the foot of the grave activated the system and after 30 minutes of kneeling at the grave, watching videos or prerecorded messages or admonitions, a message flashed on the screen, indicating that a deposit had been made electronically to their bank account. For the Wright family of Napa, California, there is no other way to collect Uncle Eno's inheritance other than by monthly kneelings. ["Gravewatch" tombstones shown with "Retscan" retinal scanning ID monitors.] MODEL RELEASED
    USA_SCI_COMM_07_xs.jpg
  • Lightning research. Scientists prepare a rocket designed to fly into a thunderstorm and trigger a bolt of lightning. The rocket trails a fine copper wire, providing an easy path for the lightning to reach Earth. This allows the scientists to measure the current, voltage and other parameters of the lightning bolts. To ensure safety, the rocket is launched by blowing through a tube to activate a pneumatic switch. This prevents the operator from making accidental electrical contact with the lightning. Photographed at Mount Baldy, New Mexico USA.
    USA_SCI_RCKT_08_xs.jpg
  • University of California Berkeley biologist Robert Full analyzes centipede motion by observing the insect's movement across a glass plate covered with "photoelastic" gelatin. On either side of the gel are thin polarizing filters that together block all light coming through the glass. When the centipede's feet contact the gel, they temporarily deform it, altering the way light goes through it and allowing some to pass through the filters. In the test above, one group of legs works on one side of the animal's midsection while two other groups work near its head and tail. UC Berkeley (California. From the book Robo sapiens: Evolution of a New Species, page 94 bottom..
    USA_rs_314_qxxs.jpg
  • Summer lightning storm over Tucson, Arizona from Tumamoc Hill with Saguaro cactus. Storms erupt regularly during Arizona summers due to the moist air that flows in from the Gulf of California then collides with nearby mountains and is forced upward, where it condenses into thunderclouds. ..Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius. Tucson, Arizona, USA. (1992)
    USA_SCI_LIG_32_xs.jpg
  • T-28 armor-plated aircraft used to fly through storm clouds to measure particle sizes and cloud electrification. Cape Canaveral (Kennedy Space Center), Florida. (1991).Lightning occurs when a large electrical charge builds up in a cloud, probably due to the friction of water and ice particles. The charge induces an opposite charge on the ground, and a few leader electrons travel to the ground. When one makes contact, there is a huge backflow of energy up the path of the electron. This produces a bright flash of light, and temperatures of up to 30,000 degrees Celsius.
    USA_SCI_LIG_15_xs.jpg
  • Virtual sex. Pornographic application of virtual reality, showing a man mauling his virtual conquest provided by his headset and data glove & an unseen computer system. Virtual, in computer parlance, describes equipment or programs that assume one form yet give the illusion of another. Here, the image of the woman is provided by the system through goggles in the head-set; contact is effectively faked by optic-optic sensors in the black, rubber data glove, which relay information on aspect and movement of the man's fingers. Photographed at Autodesk Inc., USA. MODEL RELEASED. (1990)
    USA_SCI_VR_08_xs.jpg
  • FINAL CONTACT: "GRAVEWATCH".  Photo Illustration for the Future of Communication GEO (Germany) Special issue. Fictional Representation and Caption: Interactive gravestones became quite popular in the 21st century. Adding snippets of video of the diseased was quite easy to program since nearly every family had extensively documented their family time with small digital videocams. AI (artificial intelligence) computer programs made conversations with the dead quite easy. These virtual visits to the underworld became passé within a decade however, and graveyard visits became less common. By mid-century many people wanted to insure that their relatives would continue paying their respects, and keeping their memory alive. New technology insured regular visits to the gravesite to pick up a monthly inheritance check issued electronically by a built-in device with wireless connection to the living relative's bank account. Face recognition (and retinal scanners on high-end models) insured that family members were present during the half-hour visits. A pressure pad at the foot of the grave activated the system and after 30 minutes of kneeling at the grave, watching videos or prerecorded messages or admonitions, a message flashed on the screen, indicating that a deposit had been made electronically to their bank account. For the Wright family of Napa, California, there is no other way to collect Uncle Eno's inheritance other than by monthly kneelings. ["Gravewatch" tombstones shown with "Retscan" retinal scanning ID monitors.] MODEL RELEASED
    USA_SCI_COMM_06_xs.jpg

Peter Menzel Photography

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