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  • Bullfight, Seville, Spain.
    SPA_230_xs.jpg
  • Bullfighter with a missing shoe, Seville, Spain.
    SPA_229_xs.jpg
  • A traditional encierro, or taunting of the bulls by local residents at the annual wine harvest festival in Logroño, Spain. This takes place in the municipal bullring after the bulls run through the streets early every morning.
    SPA_225_xs.jpg
  • Bullfight, April Fair, Seville, Spain.
    SPA_222_xs.jpg
  • A traditional encierro, or taunting of the bulls by local residents at the annual wine harvest festival in Logroño, Spain. This takes place in the municipal bullring after the bulls run through the streets early every morning.
    SPA_226_xs.jpg
  • A traditional encierro, or taunting of the bulls by local residents at the annual wine harvest festival in Logroño, Spain. This takes place in the municipal bullring after the bulls run through the streets early every morning during the festival.
    SPA_224_xs.jpg
  • Bullfight in a "rent-a-ring" during the annual festival for the Spanish town of Olite's patron saint. Navarra, Spain.
    SPA_223_xs.jpg
  • Sunraycer in traffic on a road test in the Simi Valley, California, USA. Sunraycer, General Motors' entry for the Pentax World Solar Challenge, the first international solar-powered car race, which began in Darwin, Northern Territories on November 1st, 1987 and finished in Adelaide, South Australia. Sunraycer was the eventual winner, taking 5 1/2 days to complete the 1,950 miles, traveling at an average speed of 41.6 miles per hour. Strict rules were applied throughout the race. Entrants were permitted two 2-hour solar battery charging sessions per day, performed immediately before & after each daily stage of the race. (1987)
    USA_SCI_SOLCAR_01_xs.jpg
  • Professional bullfighter Oscar Higares  guides a charging bull with his cape during the annual village festival of San Juan in Campos del Rio, near Murcia in southern Spain.  (Oscar Higares is featured in the book What I Eat: Around the World in 80 Diets.) After a dozen more passes, he kills the bull on his first attempt, eliciting a standing ovation from the crowd, which awards him the bull's ears and tail. Oscar and the bull spend just under 15 minutes together in the ring (an anxious period in which Oscar must control not only the objective dangers, but also his fear).  Each bullfight ends with the killing of the bull by the matador (bullfighter).MODEL RELEASED.
    SPA_070624_585_xw.jpg
  • Professional bullfighter Oscar Higares  guides a charging bull with his cape during the annual village festival of San Juan in Campos del Rio, near Murcia in southern Spain.  (Oscar Higares is featured in the book What I Eat: Around the World in 80 Diets.) After a dozen more passes, he kills the bull on his first attempt, eliciting a standing ovation from the crowd, which awards him the bull's ears and tail. Oscar and the bull spend just under 15 minutes together in the ring (an anxious period in which Oscar must control not only the objective dangers, but also his fear).  Each bullfight ends with the killing of the bull by the matador (bullfighter).MODEL RELEASED.
    SPA_070624_594_xw.jpg
  • Professional bullfighter Oscar Higares guides a charging bull with his cape during the annual village festival of San Juan in Campos del Rio, near Murcia in southern Spain.  (Oscar Higares is featured in the book What I Eat: Around the World in 80 Diets.) After a dozen more passes, he kills the bull on his first attempt, eliciting a standing ovation from the crowd, which awards him the bull's ears and tail. Oscar and the bull spend just under 15 minutes together in the ring (an anxious period in which Oscar must control not only the objective dangers, but also his fear).  Each bullfight ends with the killing of the bull by the matador (bullfighter).MODEL RELEASED.
    SPA_070624_576_xw.jpg
  • Sunraycer is being followed by its support vehicle during a road test in the California Mojave desert USA. Sunraycer, General Motors' entry for the Pentax World Solar Challenge, the first international solar-powered car race, which began in Darwin, Northern Territories on November 1st, 1987 and finished in Adelaide, South Australia. Sunraycer was the eventual winner, taking 5 1/2 days to complete the 1,950 miles, traveling at an average speed of 41.6 miles per hour. Strict rules were applied throughout the race. Entrants were permitted two 2-hour solar battery charging sessions per day, performed immediately before & after each daily stage. (1987).
    USA_SCI_SOLCAR_02_xs.jpg
  • Professional bullfighter Oscar Higares' first bull of the day roars by him not long after charging out of the gate on a stifling midsummer day in Campos del Rio, near Murcia in southern Spain.   (From the book What I Eat: Around the World in 80 Diets). MODEL RELEASED.
    SPA_070624_594_xxw.jpg
  • Professional bullfighter Oscar Higares guides a charging bull into a wall at the annual village festival of San Juan in Campos del Rio, near Murcia in southernSpain.  (Oscar Higares is featured in the book What I Eat: Around the World in 80 Diets.) After a dozen more passes, he kills the bull on his first attempt, eliciting a standing ovation from the crowd, which awards him the bull's ears and tail. Oscar and the bull spend just under 15 minutes together in the ring (an anxious period in which Oscar must control not only the objective dangers, but also his fear).  Each bullfight ends with the killing of the bull by the matador (bullfighter).MODEL RELEASED.
    SPA_070624_570_xw.jpg
  • Sunraycer, General Motors' entry for the Pentax Solar Car Race, the first international solar-powered car race, which began in Darwin, Northern Territories on November 1st, 1987 and finished in Adelaide, South Australia. Sunraycer was the eventual winner, taking 5 1/2 days to complete the 1,950 miles, traveling at an average speed of 41.6 miles per hour. Strict rules were applied throughout the race. Entrants were permitted two 2-hour battery-charging sessions per day, performed immediately before & after each daily stage of the race. 1987, south of Coober Pedy.
    AUS_SCI_SOLCAR_04_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
  • 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 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
  • 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
  • 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
  • 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
  • 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
  • Static electricity. Young boy holding the dome of a Van de Graaff generator, which makes his hair stand on end. The generator creates a negative charge of static electricity. When the boy touches the dome the charge passes from the dome (where it would otherwise be stored) on to his hands, and through to his hair. As the individual hairs become charged they repel each other, causing them to stand on end. Photographed at the Franklin Institute, Philadelphia, USA. MODEL RELEASED (1991)
    USA_SCI_LIG_09_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
  • 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
  • Van de Graaff generator display at the Franklin Institute in Philadelphia, Pennsylvania . Pamela Gross demonstrates static electricity. A Van de Graaff generator is an electrostatic generator used to produce a high voltage, usually in the megavolt range. Physicist Robert J. Van de Graaff invented it. The generator creates a negative charge of static electricity. When the girl touches the dome the charge passes from the dome (where it would otherwise be stored) on to her hands, and through to her hair. As the individual hairs become charged they repel each other, causing them to stand on end.  MODEL RELEASED (1991)
    USA_SCI_LIG_08_xs.jpg
  • Van de Graaff generator display at the Franklin Institute in Philadelphia, Pennsylvania. Pamela Gross demonstrates static electricity. A Van de Graaff generator is an electrostatic generator used to produce a high voltage, usually in the megavolt range. Physicist Robert J. Van de Graaff invented it. The generator creates a negative charge of static electricity. When the boy touches the dome the charge passes from the dome (where it would otherwise be stored) on to his hands, and through to his hair. As the individual hairs become charged they repel each other, causing them to stand on end. (1991)
    USA_SCI_LIG_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_02_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_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
  • Rocket-triggered lightning launch site at Mosquito Lagoon near Cape Canaveral (Kennedy Space Center), Florida. Shooting a rocket into overhead thundercloud causes a lightning strike. A fine copper wire trailing from the rocket creates a path for the cloud's electric charge. (1991)
    USA_SCI_LIG_29_xs.jpg
  • Proton decay experiment to determine the ultimate stability of matter..Physics: Proton Decay. Ohio, Morton Salt Mine (1985). Proton decay detector located 600 meters underground in the Morton salt mine near Cleveland, Ohio.which consists of a massive tank containing 21 cubic meters of ultra pure water, its walls lined with photomultiplier tubes, which detect faint flashes of Cerenkov light emitted by the passage of charged particles
    USA_SCI_PHY_36_xs.jpg
  • Micro Technology: Steve Jacobsen, at the University of Utah's micromechanics laboratory with the undressed frame of a Disneyland robot. He is holding a silicon wafer in his left hand; This contains many micro motors and micro-actuators that could soon revolutionize robot design. Micromechanic devices, like silicon microcircuits, operate with static electrical charges, and so would require only one power cable, replacing the 200 that he is holding in his right hand. Model Released [1990]
    USA_SCI_MICRO_03_xs.jpg
  • Professional bullfighter Oscar Higares guides his second bull of the day as it charges past his body at full speed at the annual village festival of San Juan in Campos del Rio, near Murcia in southern Spain.  (Oscar Higares is featured in the book What I Eat: Around the World in 80 Diets.) After a dozen more passes, he kills the bull on his first attempt, eliciting a standing ovation from the crowd, which awards him the bull's ears and tail. Oscar and the bull spend just under 15 minutes together in the ring (an anxious period in which Oscar must control not only the objective dangers, but also his fear).   Each bullfight ends with the killing of the bull by the matador (bullfighter).  MODEL RELEASED.
    SPA_070624_785_xw.jpg
  • Professional bullfighter Oscar Higares guides his first bull of the day as it charges past his body at full speed at the annual village festival of San Juan in Campos del Rio, near Murcia in southern Spain.  (Oscar Higares is featured in the book What I Eat: Around the World in 80 Diets.) After a dozen more passes, he kills the bull on his first attempt, eliciting a standing ovation from the crowd, which awards him the bull's ears and tail. Oscar and the bull spend just under 15 minutes together in the ring (an anxious period in which Oscar must control not only the objective dangers, but also his fear).  Each bullfight ends with the killing of the bull by the matador (bullfighter). MODEL RELEASED.
    SPA_070624_573_xw.jpg
  • A fruit tart baked at the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps, where monk brother priest Ricardo Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood. (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    ITA_040614_767_xw.jpg
  • Inside the San Marcello al Corso Church in Rome, Italy, where monk brother priest Ricardo Casagrande leads a morning mass (center). (Riccardo Casagrande is featured in the book, What I Eat: Around the World in 80 Diets.) Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood. MODEL RELEASED.
    ITA_040614_263_xw.jpg
  • The interior of the San Marcello al Corso Church in Rome, Italy, where Riccardo Casagrande, monk brother priest leads a morning mass.   (Riccardo Casagrande is featured in the book, What I Eat: Around the World in 80 Diets.) Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood.
    ITA_040614_205_xw.jpg
  • Riccardo Casagrande, a monk brother priest, leads a morning mass at the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps. Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood. (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.)
    ITA_040614_113_xw.jpg
  • Monk brother priest Riccardo Casagrande's dinner of spaghetti on his table at the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps. (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.)  Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood.
    ITA_040614_082_xw.jpg
  • Professional bullfighter Oscar Higares guides his second bull of the day as it charges past his body at full speed at the annual village festival of San Juan in Campos del Rio, near Murcia in southern Spain.  (From the book What I Eat: Around the World in 80 Diets.)  MODEL RELEASED.
    SPA_070624_810_xxw.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
  • Bill Haeck of Rock Springs, Wyoming is an avid hunter who relies on his artificial myoelectric arm to continue his hobby after losing his arm in an accident.  Researchers at the University of Utah gave him a myoelectric arm, which he controls by flexing the muscles in his arm that are still intact. Sensors on the inside of the prosthetic arm socket pick up the faint electrical signals from the muscles and amplify them to control the robot arm. In this way, Haeck can do most things as he did before his accident but he often forgets to charge the battery. Seen here target shooting behind his house.
    USA_SCI_MEARM_08_xs.jpg
  • Seven-year-old Masahiko Nozue gets down on the floor and romps with AIBO, Sony's robotic pet dog. The Nozues had wanted a real dog, but pets are not allowed in their apartment. AIBO never needs to be fed, bathed, or walked, although it can simulate urination; it doesn't shed hair, bark at the neighbors, or need to be kept in a kennel when its owners go on vacation. Still, its behavior is so lifelike that the Nozues find it hard to treat it like a machine. One charge on its rechargeable battery lasts about two hours, and during that time AIBO is for all intents and purposes one of the family. Yokohama, Japan. From the book Robo sapiens: Evolution of a New Species, page 224-225.
    Japan_JAP_rs_247_qxxs.jpg
  • An American documentary about a Los Angeles SWAT police team show being watched by Soumana Natomo and other men and boys in the village of Kouakourou on the banks of the Niger River in Mali. There is no electricity in the village. The television is powered by a car battery that is charged by a photovoltaic solar cell on the roof of the pharmacy behind the men. (Supporting image from the project Hungry Planet: What the World Eats.) The Natomo family is one of the thirty families featured with a weeks worth of food in the book Hungry Planet: What the World Eats.
    MAL01_0029_xf1bs.jpg
  • On a warm Saturday afternoon, a young boy with fresh watermelon slices uses the tray for shade as he walks through Kouakourou, Mali, seeking buyers. He pauses by the outdoor barbershop where Soumana Natomo and a group of men are watching a documentary about a Los Angeles SWAT team. Their black-and-white TV is powered by a car battery charged by a solar panel on the roof of the small pharmacy next door. Hungry Planet: What the World Eats (p. 217). This image is featured alongside the Natomo family images in Hungry Planet: What the World Eats.
    MAL01_0011_xxf1s.jpg
  • The Breidjing Refugee Camp, Eastern Chad on the Sudanese border shelters 30,000 people who have fled their homes in Darfur, Sudan. Food is distributed free of charge by the United Nations WFP (World Food Program). Here women line up to get their ration of grain ground into meal at a portable diesel powered mill operated by a local entrepreneur who is paid with a small percentage of the grain. (Supporting image from the project Hungry Planet: What the World Eats.)
    CHA104_8721_xf1brw.jpg
  • Star Wars research: neutral particle beam accelerator at Los Alamos National Laboratory. The accelerator was part of the Reagan White House project for a space-based accelerator that could produce a high-energy, uncharged particle beam that might examine, disarm, & even destroy distant objects (such as ballistic missiles), as part of America's Strategic Defense Initiative (SDI) - the "Star Wars" program. Neutral (uncharged) particle beams are necessary because the influence of the Earth's magnetic field on electrically charged particles would cause them to travel in spirals. Los Alamos, New Mexico. (1988)
    USA_SCI_NUKE_50_xs.jpg
  • Lightning tolerance test. A researcher holding two carbon-fiber panels from a helicopter, showing their tolerance of lightning. The panel at right is simple carbon fiber, and has had a large hole punched in it by simulated lightning. This is because it is an electrical insulator, so cannot disperse the electricity across its surface. The panel at left has a thin grid of copper wire coating the surface. This allows the electrical charge to disperse over the surface, causing nothing more than damage to the paint. Photographed at Lightning Technologies Inc. of Massachusetts, USA. 1992.MODEL RELEASED
    USA_SCI_LIG_45_xs.jpg
  • Franklin's lightning experiment. Model demonstrating the idea of the experiment conducted by Benjamin Franklin in 1750 on the nature of lightning. Franklin (1706-1790) was an American experimenter in static electricity. He wanted to show that lightning was a form of static electricity and could be drawn from the cloud by means of a tall metal spike. Delays to construction led him to try using a kite instead, and he indeed found that he could charge a capacitor by lightning drawn along a wet cord from the kite. Many later scientists died trying to duplicate the experiment. This model is in the Boston Museum of Science, USA. 1991.
    USA_SCI_LIG_41_xs.jpg
  • Rocket-triggered lightning launch site at Mosquito Lagoon near Cape Canaveral (Kennedy Space Center), Florida. Shooting a rocket into overhead thundercloud causes a lightning strike. A fine copper wire trailing from the rocket creates a path for the cloud's electric charge. (1991)
    USA_SCI_LIG_30_xs.jpg
  • Static electricity. A child plays with a plasma globe in a museum. A plasma globe is a large glass vessel, containing a gas at low pressure. A voltage of static electricity is applied between the metal sphere at centre and the glass. Static discharge across the gas causes its atoms to lose their electrons, a 'plasma' state. When the nuclei and their electrons recombine, they emit a characteristic color light. Placing an object against the glass, such as the child's hand, concentrates the local static charge and creates the beautiful 'streamer' effect seen here. Photographed at the Boston Museum of Science. MODEL RELEASED (1991)
    USA_SCI_LIG_12_xs.jpg
  • Rebecca Norton, an experienced miner, sets dynamite charges. Cape Otway, southern Australia.  Dinosaur Cove is the world's first mine developed specifically for paleontology, normally the scientists rely on commercial mining to make the excavations. The site is of particular interest as the fossils found date from about 100 million years ago, when Australia was much closer to the South Pole than today. MODEL RELEASED [1989]
    AUS_SCI_DINO_35_xs.jpg
  • Proton decay experiment to determine the ultimate stability of matter..Physics: Proton Decay. Ohio, Morton Salt Mine (1985). Proton decay detector located 600 meters underground in the Morton salt mine near Cleveland, Ohio.which consists of a massive tank containing 21 cubic meters of ultra pure water, its walls lined with photomultiplier tubes, which detect faint flashes of Cerenkov light emitted by the passage of charged particles.
    USA_SCI_PHY_35_xs.jpg
  • Physics: Proton Decay. Ohio, Morton Salt Mine 1985. Proton decay detector located 600 meters underground in the Morton salt mine near Cleveland, Ohio, which consists of a massive tank containing 21 cubic meters of ultra pure water, its walls lined with photomultiplier tubes, which detect faint flashes of Cerenkov light emitted by the passage of charged particles. MODEL RELEASED
    USA_SCI_PHY_28_xs.jpg
  • Physics: Proton Decay control room. Cleveland, Ohio, Morton Salt Mine proton decay detector located 600 meters underground in the Morton salt mine near Cleveland, Ohio, which consists of a massive tank containing 21 cubic meters of ultra pure water, its walls lined with photomultiplier tubes, which detect faint flashes of Cerenkov light emitted by the passage of charged particles. [1985]
    USA_SCI_PHY_24_xs.jpg
  • Proton decay experiment to determine the ultimate stability of matter..Proton decay. A technician [works with] a 20" (50cm) photomultiplier tube used in the search for proton decay. Hundreds of such tubes line a tank containing 9000 tons of water some 1000 meters underground in a zinc mine in Japan. Tokyo University's Kamiokande experiment was designed to look for decaying protons. If a proton decays, the charged particles it generates move through the water faster than light, and so generate blue 'Cerenkov' radiation. It is this that the photomultipliers detect. Computers then decide whether the event was a decay, or a collision with a solar neutrino. Japan. (1985)
    Japan_JAP_SCI_PHY_02_xs.jpg
  • Los Alamos National Lab, New Mexico. Research in the flow cytometry lab - sorting chromosomes for DNA Library. The counting of cells is called cytometry. Flow cytometry characterizes single cells as they pass at high speed through a laser beam. Speeds of up to 50,000 cells a second can be measured. The scattering of the laser beam provides a way to identify the cells. Many other characteristics, such as shape and surface texture can also be measured. The cells are then sorted as electrically charged droplets. This also purifies the samples. (1989).Human Genome Project.
    USA_SCI_HGP_06_xs.jpg
  • Professional bullfighter Oscar Higares guides his first bull of the day as it charges past his body at full speed at the annual village festival of San Juan in Campos del Rio, near Murcia in southern Spain.  (Oscar Higares is featured in the book What I Eat: Around the World in 80 Diets.) After a dozen more passes, he kills the bull on his first attempt, eliciting a standing ovation from the crowd, which awards him the bull's ears and tail. Oscar and the bull spend just under 15 minutes together in the ring (an anxious period in which Oscar must control not only the objective dangers, but also his fear).   Each bullfight ends with the killing of the bull by the matador (bullfighter).  MODEL RELEASED.
    SPA_070624_577_xw.jpg
  • Riccardo Casagrande, monk brother priest, oversees the preparation of a meal in the kitchen of the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps. (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.) Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood.
    ITA_040614_769_xw.jpg
  • Riccardo Casagrande, a monk brother priest, eats spaghetti for lunch at the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps.  (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.) Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood. MODEL RELEASED.
    ITA_040614_483_xw.jpg
  • A plate of zucchini prepared with herbs for lunch at the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps, where monk brother priest Riccardo Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood. (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.)
    ITA_040614_422_xw.jpg
  • Riccardo Casagrande, monk brother priest, cuts bread as he prepares for lunch at the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps. (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.) Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood. MODEL RELEASED.
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  • Riccardo Casagrande, monk brother priest eats with a colleague at the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps. (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.) Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood.
    ITA_040614_225_xw.jpg
  • Riccardo Casagrande, a monk brother priest at the San Marcello al Corso Church in Rome, Italy, snips basil leaves for supper on the church rooftop garden. (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.) Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood. MODEL RELEASED..
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  • Riccardo Casagrande, a monk brother priest, leads a morning mass at the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps. Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood. (Riccardo Casagrande is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
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  • Professional bullfighter Oscar Higares guides his second bull of the day as it charges past his body at full speed at the annual village festival of San Juan in Campos del Rio, near Murcia in southern Spain.  (From the book What I Eat: Around the World in 80 Diets.) After a dozen more passes, he kills the bull on his first attempt, eliciting a standing ovation from the crowd, which awards him the bull's ears and tail. Oscar and the bull spend just under 15 minutes together in the ring?an anxious period in which Oscar must control not only the objective dangers, but also his fear.   Each bullfight ends with the killing of the bull by the matador (bullfighter).  MODEL RELEASED.
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  • Riccardo Casagrande, a monk brother priest, inspects the church's wine cellars at the San Marcello al Corso Church in Rome, Italy, near the Spanish Steps. (Riccardo Casagrande is featured in the book, What I Eat: Around the World in 80 Diets.)  Casagrande is in charge of the kitchen, garden, and wine cellar for the brotherhood. MODEL RELEASED.
    ITA_040614_075_xxw.jpg
  • Riccardo Casagrande, a Roman Catholic friar and gastronome, in the San Marcello al Corso church dining hall in Rome, Italy, with his typical day's worth of food. (From the book What I Eat: Around the World in 80 Diets.)  The caloric value of his typical day's worth of food on a day in July was 4000 kcals. He is 63 years of age; 5 feet, 8.5 inches tall; and 140 pounds. For over 20 years he has overseen the kitchen, the rooftop garden, and the basement wine cellar for the friars and priests living in the church complex near Rome's Spanish Steps.   Between stints saying mass in the beautiful San Marcello al Corso in Rome, he is in charge of his fellow brothers' wine cellar, and oversees the cooks. Traditional Italian food is served family style in the brothers' large dining room. MODEL RELEASED.
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  • Austin Richards of Santa Barbara, CA, is zapped by his homemade Tesla Coil. Richards wears a homemade robot outfit with a birdcage covering his head. The electrical "lightning" bolts his Tesla coil zaps him with do not do any harm because he is surrounded by metal that acts a Faraday cage, harmlessly channeling the charges to the ground and protecting his body from shocks. Richards performs these stunts for trade shows and parties. Here he is doing this for a block party near Santa Barbara. California, USA
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  • Austin Richards of Santa Barbara, CA, is zapped by his homemade Tesla Coil. Richards wears a homemade robot outfit with a birdcage covering his head. The electrical "lightning" bolts his Tesla coil zaps him with do not do any harm because he is surrounded by metal that acts a Faraday cage, harmlessly channeling the charges to the ground and protecting his body from shocks. Richards performs these stunts for trade shows and parties. Here he is doing this for a block party near Santa Barbara. California, USA
    Usa_rs_433_120_xs.jpg
  • Sidling along the edge of a reservoir outside Boston, MA., Ariel the crab-robot moves with a slow, steady, sideways gait. A machine with a serious purpose, it is designed to scuttle from the shore through the surf to search for mines on the ocean floor. Ariel was funded by the Defense Advanced Research Projects Agency and built by iRobot, a company founded by MIT robot guru Rodney Brooks. Inspired by research on crabs at Robert Full's lab at Berkeley, Ariel takes advantage of the animal's stability and improves on it. But despite its abilities, the technician in charge of the machine, Ed Williams, supervises Ariel's excursions with great anxiety. From the book Robo sapiens: Evolution of a New Species, page 100.
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  • Bill Haeck of Rock Springs, Wyoming is an avid hunter who relies on his artificial myoelectric arm to continue his hobby after losing his arm in an accident.  Researchers at the University of Utah gave him a myoelectric arm, which he controls by flexing the muscles in his arm that are still intact. Sensors on the inside of the prosthetic arm socket pick up the faint electrical signals from the muscles and amplify them to control the robot arm. In this way, Haeck can do most things as he did before his accident but he often forgets to charge the battery. Seen here target shooting behind his house.
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  • (MODEL RELEASED IMAGE). The Breidjing Refugee Camp, Eastern Chad on the Sudanese border shelters 30,000 people who have fled their homes in Darfur, Sudan. Food is distributed free of charge by the United Nations WFP (World Food Program). Here 12 year old Acha Aboubakar prepares to take her family's (her mother is a widow and she has 4 brothers and sisters) ration of grain ground into meal at a portable diesel powered mill operated by a local entrepreneur who is paid with a small percentage of the grain. (Supporting image from the project Hungry Planet: What the World Eats.)
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  • The Breidjing Refugee Camp, Eastern Chad on the Sudanese border shelters 30,000 people (in tents provided by the UNHCR: United Nations High Commission for Refugees) who have fled their homes in Darfur, Sudan. Food is distributed free of charge by the United Nations WFP (World Food Program). (Supporting image from the project Hungry Planet: What the World Eats.)
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  • The Breidjing Refugee Camp, Eastern Chad on the Sudanese border shelters 30,000 people who have fled their homes in Darfur, Sudan. Food is distributed free of charge by the United Nations WFP (World Food Program). Here, women pound grain into meal with a traditional heavy wooden mortar and pestle. (Supporting image from the project Hungry Planet: What the World Eats.)
    CHA104_8757_xf1brw.jpg
  • The Breidjing Refugee Camp, Eastern Chad on the Sudanese border shelters 30,000 people who have fled their homes in Darfur, Sudan. Food is distributed monthly free of charge by the United Nations WFP (World Food Program). Here, salt is rationed among the families. (Supporting image from the project Hungry Planet: What the World Eats.)
    CHA104_8687_xf1brw.jpg
  • The Breidjing Refugee Camp, Eastern Chad on the Sudanese border shelters 30,000 people who have fled their homes in Darfur, Sudan. Food is distributed free of charge by the United Nations WFP (World Food Program), but here in this camp market at the end of Ramadan, large numbers of watermelons are sold for the feast at the end of this month long Muslim holiday. (Supporting image from the project Hungry Planet: What the World Eats.)
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  • Star Wars research: neutral particle beam accelerator at Los Alamos National Laboratory. The accelerator was part of the Reagan White House project for a space-based accelerator that could produce a high-energy, uncharged particle beam that might examine, disarm, & even destroy distant objects (such as ballistic missiles), as part of America's Strategic Defense Initiative (SDI) - the "Star Wars" program. Neutral (uncharged) particle beams are necessary because the influence of the Earth's magnetic field on electrically charged particles would cause them to travel in spirals. Los Alamos, New Mexico. (1988)
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  • A mining engineer sets off an explosive charge deep inside a mine. The explosives dislodge large pieces of rock from the working face of the mine. When the dust has settled, these rocks are removed and checked for fossil remains. Dinosaur Cove is the world's first mine developed specifically for paleontology, normally the scientists rely on commercial mining to make the excavations. The site is of particular interest as the fossils found date from about 100 million years ago, when Australia was much closer to the South Pole than today. [1989].
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  • In such hypercompetitive circumstances, Filipino fish vendors don't sell their wares by the pound or kilo. Instead, they charge by the tumpok (pile). The size of the tumpok varies moment by moment, according to demand. Hungry Planet: What the World Eats (p. 239). This image is featured alongside the Cabaña family images in Hungry Planet: What the World Eats.
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Peter Menzel Photography

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