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  • Ban Saylom Village, just South of Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120124_036_x.jpg
  • Ban Saylom Village, just South of Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120124_013_x.jpg
  • Ban Saylom Village, just South of Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120127_017_x.jpg
  • Ban Saylom Village, just South of Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120124_029_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_025_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_019_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_003_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_101_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_099_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_098_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_096_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_088_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_084_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_081_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_074_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_062_x.jpg
  • Ban Saylom Village, just South of Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120128_008_x.jpg
  • Ban Saylom Village, just South of Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120125_020_x.jpg
  • Ban Saylom Village, just South of Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120124_037_x.jpg
  • Ban Saylom Village, just South of Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120124_015_x.jpg
  • Ban Saylom Village, just South of Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120124_003_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_943_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_939_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_022_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_016_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_015_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_013_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_012_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit. .
    LAO_120123_006_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_094_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_079_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_076_x.jpg
  • Luang Prabang, Laos. Every morning at dawn, barefoot Buddhist monks and novices in orange robes walk down the streets collecting food alms from devout, kneeling Buddhists. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_120121_057_x.jpg
  • Heliostats with central receiving tower reflected. Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1985).
    USA_SCI_ENGY_13_xs.jpg
  • Radio Telescope: The Mars Antenna in the Mojave Desert, California. Goldstone Deep Space Communications Complex. Standing 24 stories tall, the Mars antenna is the largest dish at Goldstone. It was originally built as a 64-meter-diameter (210-foot) antenna and received its first signal from the Mariner 4 mission to Mars. By 1988, the Mars dish, along with the 64-meter antennas in Spain and Australia, was upgraded to 70 meters (230 feet). These 70-meter antennas increase the receiving power of the Deep Space Network. (1983)
    USA_SCI_RT_05_xs.jpg
  • Radio Telescope: The Mars Antenna in the Mojave Desert, California. Goldstone Deep Space Communications Complex. Standing 24 stories tall, the Mars antenna is the largest dish at Goldstone. It was originally built as a 64-meter-diameter (210-foot) antenna and received its first signal from the Mariner 4 mission to Mars. By 1988, the Mars dish, along with the 64-meter antennas in Spain and Australia, was upgraded to 70 meters (230 feet). These 70-meter antennas increase the receiving power of the Deep Space Network. (1983)
    USA_SCI_RT_04_xs.jpg
  • Radio Telescope: The Mars Antenna in the Mojave Desert, California. Goldstone Deep Space Communications Complex. Standing 24 stories tall, the Mars antenna is the largest dish at Goldstone. It was originally built as a 64-meter-diameter (210-foot) antenna and received its first signal from the Mariner 4 mission to Mars. By 1988, the Mars dish, along with the 64-meter antennas in Spain and Australia, was upgraded to 70 meters (230 feet). These 70-meter antennas increase the receiving power of the Deep Space Network. Time exposure shows the rotation of the earth (the light from stars are recorded as curved steaks). (1983)
    USA_SCI_RT_02_xs.jpg
  • Radio Telescope: The Mars Antenna in the Mojave Desert, California. Goldstone Deep Space Communications Complex. Standing 24 stories tall, the Mars antenna is the largest dish at Goldstone. It was originally built as a 64-meter-diameter (210-foot) antenna and received its first signal from the Mariner 4 mission to Mars. By 1988, the Mars dish, along with the 64-meter antennas in Spain and Australia, was upgraded to 70 meters (230 feet). These 70-meter antennas increase the receiving power of the Deep Space Network. (1983)
    USA_SCI_RT_01_xs.jpg
  • Radio Telescope: The Mars Antenna in the Mojave Desert, California. Goldstone Deep Space Communications Complex. Standing 24 stories tall, the Mars antenna is the largest dish at Goldstone. It was originally built as a 64-meter-diameter (210-foot) antenna and received its first signal from the Mariner 4 mission to Mars. By 1988, the Mars dish, along with the 64-meter antennas in Spain and Australia, was upgraded to 70 meters (230 feet). These 70-meter antennas increase the receiving power of the Deep Space Network. (1983)
    USA_SCI_RT_06_xs.jpg
  • USA_SCI_RT_03_xs .Photo illustration:.Radio Telescope: The Mars Antenna in the Mojave Desert, California the Goldstone Deep Space Communications Complex with 6 exposures of the eclipse of the moon. Standing 24 stories tall, the Mars antenna is the largest dish at Goldstone. It was originally built as a 64-meter-diameter (210-foot) antenna and received its first signal from the Mariner 4 mission to Mars. By 1988, the Mars dish, along with the 64-meter antennas in Spain and Australia, was upgraded to 70 meters (230 feet). These 70-meter antennas increase the receiving power of the Deep Space Network. (1983)
    USA_SCI_RT_03_xs.jpg
  • In Ban Phan Luang, across the Nam Khan River from Luang Prabang, Laos. Every morning at dawn, Buddhist monks walk down the streets collecting food alms from devout, kneeling Buddhists. In neighborhoods, after receiving food, they line up and chant a blessing towards the benefactor's house. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_110318_064_x.jpg
  • In Ban Phan Luang, across the Nam Khan River from Luang Prabang, Laos. Every morning at dawn, Buddhist monks walk down the streets collecting food alms from devout, kneeling Buddhists. In neighborhoods, after receiving food, they line up and chant a blessing towards the benefactor's house.They then return to their temples, or wats, and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_110319_172.jpg
  • In Ban Phan Luang, across the Nam Khan River from Luang Prabang, Laos. Every morning at dawn, Buddhist monks walk down the streets collecting food alms from devout, kneeling Buddhists. In neighborhoods, after receiving food, they line up and chant a blessing towards the benefactor's house.They then return to their temples, or wats, and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_110319_060_x.jpg
  • A traditionally dressed Himba woman with her child outside a supermarket in Opuwo, a town well known for cultural tourism in northwestern Namibia, after receiving money from a tourist in exchange for a photograph.  Like most traditional Himba women, she covers herself from head to toe with an ochre powder and cow butter blend. Some Himba are turning to tourism to kick-start their entry into the cash economy, setting up demonstration villages advertising "The Real Himba."
    NAM_090307_140_xw.jpg
  • In Ban Phan Luang, across the Nam Khan River from Luang Prabang, Laos. Every morning at dawn, Buddhist monks walk down the streets collecting food alms from devout, kneeling Buddhists. In neighborhoods, after receiving food, they line up and chant a blessing towards the benefactor's house. They then return to their temples (also known as "wats") and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_110318_036_x.jpg
  • MODEL RELEASED. Gene therapy. Geneticist Dr Donald Kohn with a five-month-old Apache baby who suffers from SCID (severe combined immunodeficiency). The baby is receiving gene therapy for its condition. It is isolated in a sterile tent to prevent infection. The rare genetic mutation of SCID destroys the immune system making the body unable to fight infection. SCID babies lack a vital enzyme, which their immune system needs. Gene therapy involves inserting a gene for this enzyme into stem bone marrow cells and transplanting the cells into the baby. With this enzyme, stem cells may produce normal immune system blood cells. Photographed at the Children's Hospital in Los Angeles, USA.
    USA_SCI_MED_15_xs.jpg
  • A traditionaly dressed Himba woman shops for staples and soda pop with her child in a supermarket in Opuwo, northwestern Namibia after receiving money from a tourist in exchange for a photograph. (From the book What I Eat: Around the World in 80 Diets.)
    NAM_090307_103_xxw.jpg
  • A traditionally dressed Himba woman shops for staples and soda pop with her child in a supermarket in Opuwo, a town well known for cultural tourism in northwestern Namibia, after receiving money from a tourist in exchange for a photograph.  Like most traditional Himba women, she covers herself from head to toe with an ochre powder and cow butter blend. Some Himba are turning to tourism to kick-start their entry into the cash economy, setting up demonstration villages advertising "The Real Himba."
    NAM_090307_106_xw.jpg
  • In Ban Phan Luang, across the Nam Khan River from Luang Prabang, Laos. Every morning at dawn, Buddhist monks walk down the streets collecting food alms from devout, kneeling Buddhists. In neighborhoods, after receiving food, they line up and chant a blessing towards the benefactor's house.They then return to their temples, or wats, and eat together. This procession is called Tak Bat, or Making Merit.
    LAO_110319_062_x.jpg
  • Solar energy: Solar Plant 1. Warner Springs, California. Solar Plant 1 was the largest privately funded solar powered electrical generator in the world when it was built in 1984. Built by LaJet Energy Company of Abilene, Texas, SolarPlant 1 is a five megawatt distributed receiver facility. There is no central tower to soak up sunlight reflected from a broad field of glass mirrors. Instead, each of the 700 concentrators--consisting of 24 plastic mirrors kept in shape by a vacuum pump- reflects sunlight into its own receiver. Water is pumped through the receiver, which turns to steam to drive a turbine to produce electricity. (1985).
    USA_SCI_ENGY_77_xs.jpg
  • Solar energy: Solar Plant 1. Warner Springs, California. Solar Plant 1 was the largest privately funded solar powered electrical generator in the world when it was built in 1984. Built by LaJet Energy Company of Abilene, Texas , SolarPlant 1 is a five megawatt distributed receiver facility. There is no central tower to soak up sunlight reflected from a broad field of glass mirrors. Instead, each of the 700 concentrators--consisting of 24 plastic mirrors kept in shape by a vacuum pump- reflects sunlight into its own receiver. Water is pumped through the receiver, which turns to steam to drive a turbine to produce electricity. (1987).
    USA_SCI_ENGY_22_xs.jpg
  • Solar energy: Solar Plant 1. Warner Springs, California. Solar Plant 1 was the largest privately funded solar powered electrical generator in the world when it was built in 1984. Built by LaJet Energy Company of Abilene, Texas , SolarPlant 1 is a five megawatt distributed receiver facility. There is no central tower to soak up sunlight reflected from a broad field of glass mirrors. Instead, each of the 700 concentrators--consisting of 24 plastic mirrors kept in shape by a vacuum pump- reflects sunlight into its own receiver. Water is pumped through the receiver, which turns to steam to drive a turbine to produce electricity. (1985).
    USA_SCI_ENGY_79_xs.jpg
  • Aerial of Solar energy installation: Solar energy: Solar Plant 1. Warner Springs, California. Solar Plant 1 was the largest privately funded solar powered electrical generator in the world when it was built in 1984. Built by LaJet Energy Company of Abilene, Texas , SolarPlant 1 is a five megawatt distributed receiver facility. There is no central tower to soak up sunlight reflected from a broad field of glass mirrors. Instead, each of the 700 concentrators--consisting of 24 plastic mirrors kept in shape by a vacuum pump- reflects sunlight into its own receiver. Water is pumped through the receiver, which turns to steam to drive a turbine to produce electricity. (1985).
    USA_SCI_ENGY_75_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. (the mirrors are NOT focusing the sunlight onto the tower in this photo: the receiver is not glowing hot as it would be if the sunlight were focused on it). Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_34_xs.jpg
  • Solar energy: Solar Plant 1. Warner Springs, California. Solar Plant 1 was the largest privately funded solar powered electrical generator in the world when it was built in 1984. Built by LaJet Energy Company of Abilene, Texas , SolarPlant 1 is a five megawatt distributed receiver facility. There is no central tower to soak up sunlight reflected from a broad field of glass mirrors. Instead, each of the 700 concentrators--consisting of 24 plastic mirrors kept in shape by a vacuum pump- reflects sunlight into its own receiver. Water is pumped through the receiver, which turns to steam to drive a turbine to produce electricity. (1985).
    USA_SCI_ENGY_30_xs.jpg
  • Solar energy: Solar Plant 1. Warner Springs, California. Solar Plant 1 was the largest privately funded solar powered electrical generator in the world when it was built in 1984. Built by LaJet Energy Company of Abilene, Texas , SolarPlant 1 is a five megawatt distributed receiver facility. There is no central tower to soak up sunlight reflected from a broad field of glass mirrors. Instead, each of the 700 concentrators--consisting of 24 plastic mirrors kept in shape by a vacuum pump- reflects sunlight into its own receiver. Water is pumped through the receiver, which turns to steam to drive a turbine to produce electricity. (1985) .
    USA_SCI_ENGY_29_xs.jpg
  • Solar energy: Solar Plant 1. Warner Springs, California. Solar Plant 1 was the largest privately funded solar powered electrical generator in the world when it was built in 1984. Built by LaJet Energy Company of Abilene, Texas , SolarPlant 1 is a five megawatt distributed receiver facility. There is no central tower to soak up sunlight reflected from a broad field of glass mirrors. Instead, each of the 700 concentrators--consisting of 24 plastic mirrors kept in shape by a vacuum pump- reflects sunlight into its own receiver. Water is pumped through the receiver, which turns to steam to drive a turbine to produce electricity. (1988).
    USA_SCI_ENGY_24_xs.jpg
  • Solar energy: Solar Plant 1. Warner Springs, California. Solar Plant 1 was the largest privately funded solar powered electrical generator in the world when it was built in 1984. Built by LaJet Energy Company of Abilene, Texas , SolarPlant 1 is a five megawatt distributed receiver facility. There is no central tower to soak up sunlight reflected from a broad field of glass mirrors. Instead, each of the 700 concentrators--consisting of 24 plastic mirrors kept in shape by a vacuum pump- reflects sunlight into its own receiver. Water is pumped through the receiver, which turns to steam to drive a turbine to produce electricity. (1990).
    USA_SCI_ENGY_23_xs.jpg
  • Solar energy: Solar Plant 1. Warner Springs, California. Solar Plant 1 was the largest privately funded solar powered electrical generator in the world when it was built in 1984. Built by LaJet Energy Company of Abilene, Texas , SolarPlant 1 is a five megawatt distributed receiver facility. There is no central tower to soak up sunlight reflected from a broad field of glass mirrors. Instead, each of the 700 concentrators--consisting of 24 plastic mirrors kept in shape by a vacuum pump- reflects sunlight into its own receiver. Water is pumped through the receiver, which turns to steam to drive a turbine to produce electricity. (1985).
    USA_SCI_ENGY_21_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1985).
    USA_SCI_ENGY_74_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_06_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. MODEL RELEASED (1985).
    USA_SCI_ENGY_69_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_38_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_35_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_32_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_31_xs.jpg
  • Solar energy: Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. Photographer Peter Menzel is reflected in the mirror at dusk. (1982).
    USA_SCI_ENGY_17_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_16_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_15_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1985).
    USA_SCI_ENGY_14_xs.jpg
  • Dawn mirrors facing east to meet sun. Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_12_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_11_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_10_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_07_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_05_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_04_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1985).
    USA_SCI_ENGY_01_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_37_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_36_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_28_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_09_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_08_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1985).
    USA_SCI_ENGY_03_xs.jpg
  • U.S. Army officer Curtis Newcomer eats chili mac, his favorite MRE, at lunch time at the National Training Center at Fort Irwin in California's Mojave Desert. (From the book What I Eat: Around the World in 80 Diets.) The caloric value of his day's worth of food in the month of September was 4,000 kcals. He is 20; 6'5" and 195 pounds. His weapon is fitted with a laser that interacts with receivers worn by all of the soldiers and actors in the training exercise, regardless of duty, rank, or location in the training theater. At left: After the second of three mock battles of the day, Iraqis and Americans playing soldiers, victims, and insurgents relax together in the shade until the next 20 minutes of choreographed crisis. MODEL RELEASED.
    USA_080915_281_xxw.jpg
  • The extended Lagavale family, dressed in their Sunday best for the White Sunday holiday church services, pose for the camera in front of their house in Poutasi Village, Western Samoa. White Sunday (also called Children's Day), is celebrated on the second Sunday of October each year. In this tradition brought to the island by the London Missionary Society, the children receive new clothes and gifts, and festive games are played. Most attend church services and then gather for family feasts that feature foods like pork, taro, and coconuts. Published in Material World, pages 174-175.
    Wsa_mw_7_xxs.jpg
  • Luca Ferrero and Arturo Artom (with beard) at Stanford University, Stanford, California. The two Italian entrepreneurs had just received venture capital money for a company called Your Truman Show, which is a website for sharing personal videoblogs. MODEL RELEASED.
    USA_070213_269_rwx.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. (1985).
    USA_SCI_ENGY_02_xs.jpg
  • Virtual reality. Appearing to be supported by a high-tech Zimmer frame, computer scientist, John Airey uses a steer-able treadmill to progress on a walk- through tour of a virtual image of a church hall. As he paces on the real treadmill, so he moves towards the altar of the 3-D computer-generated image of the church. Such software packages would be invaluable to architects in judging how their designs may be received by the people who will use them, perhaps well in advance of any real foundations being laid. This photo was taken in the Computer Science Department at the University of North Carolina. Model Released (1990)
    USA_SCI_VR_20_xs.jpg
  • Physics: Samuel C.C. Ting (b.1936), Project Director of the L-3 Detector Experiment at CERN's Large Electron- Positron Collider (LEP). Sam Ting won the 1976 Nobel Prize for physics (shared with Burton Richter), following his discovery of the J/Psi particle at the Brookhaven Laboratory in 1974. The J/Psi particle, and the Psi-prime particle discovered by Richter, implied the existence of two new quarks, Charm and anti-Charm. The L-3 experiment at CERN is designed to search for the fundamental particles of nature and the mechanism by which they receive their mass. MODEL RELEASED [1988]
    SWI_SCI_PHY_03_xs.jpg
  • Curtis Newcomer (left),  a soldier at the National Training Center at Fort Irwin, California, receives breakfast at the mess tent. (Curtis Newcomer is featured in the book What I Eat: Around the World in 80 Diets.)  He eats his morning and evening meals in a mess hall tent, but his lunch consists of a variety of instant meals in the form of MREs. His least favorite is the cheese and veggie omelet. "Everybody hates that one. It's horrible," he says. A mile behind him, toward the base of the mountains, is Medina Wasl, a fabricated Iraqi village (one of 13 built for training exercises), with hidden video cameras and microphones linked to the base control center for performance reviews.  MODEL RELEASED.
    USA_080916_041_xw.jpg
  • U.S. Army officer Curtis Newcomer eats chili mac, his favorite MRE, at lunch time at the National Training Center at Fort Irwin in California's Mojave Desert. (From the book What I Eat: Around the World in 80 Diets.) The caloric value of his day's worth of food in the month of September was 4,000 kcals. He is 20; 6'5" and 195 pounds. His weapon is fitted with a laser that interacts with receivers worn by all of the soldiers and actors in the training exercise, regardless of duty, rank, or location in the training theater. At left: After the second of three mock battles of the day, Iraqis and Americans playing soldiers, victims, and insurgents relax together in the shade until the next 20 minutes of choreographed crisis. MODEL RELEASED.
    USA_080915_275_xxw.jpg
  • Honey, drizzled on a dense slice of dark sour rye bread. Beekeeper Aivars Radzins, occasionally receives bread in exchange for the honey he produces in Vecpiebalga, Latvia. (From the book What I Eat,; Around the World in 80 Diets.) The loaf comes wrapped in maple leaves baked into the crust.
    LAT_081018_061_xxw.jpg
  • A painted pachyderm pauses for a snack of discarded cauliflower leaves and receives blessings from an admirer during the Kumbh Mela festival, Ujjain, Madhya Pradesh, India. Elephants, like cows and other animals, are shown respect throughout India, and Hindu deities are often represented in their form. (From the book What I Eat: Around the World in 80 Diets.) The Kumbh Mela festival is a sacred Hindu pilgrimage held 4 times every 12 years, cycling between the cities of Allahabad, Nasik, Ujjain and Haridwar.  Participants of the Mela gather to cleanse themselves spiritually by bathing in the waters of India's sacred rivers.  Kumbh Mela is one of the largest religious festivals on earth, attracting millions from all over India and the world.  Past Melas have attracted up to 70 million visitors.
    IND_040423_011_xxw.jpg
  • A micro-loan recipient stitches net bags destined for Dhaka  at her home in  the village of Bari Majlish, an hour outside Dhaka, Bangladesh. (From the book What I Eat: Around the World in 80 Diets.)  Each bag sells for 1.2 taka ($0.02 USD). In order for a seamstress to make the equivalent of $1 (USD), she must sew 1,000 bags. She received a micro-loan from the Bangladesh Rehabilitation Assistance Committee (BRAC), which provides micro-loans to village women making mesh bags.
    BAN_081213_089_xxw.jpg
  • A child receives a token for carrying bricks at the JRB brick factory near Sonargaon, outside Dhaka, Bangladesh. The heavy clay soils along the river near the market town of Sonargaon are well suited for making bricks. At the JRB brick factory, workers of all ages move raw bricks from long, stacked rows, where they first dry in the sun, to the smoky coal-fired kilns. After being fired, the bricks turn red. A foreman keeps tally, handing the workers colored plastic tokens corresponding to the number of bricks they carry past him. They cash in the chips at the end of each shift, taking home the equivalent of $2 to $4 (USD) a day.
    BAN_081214_311_xw.jpg
  • Sitarani Tyaagi, an ascetic Hindu priest, with his typical day's worth of food at an ashram in Ujjain, India. (From the book What I Eat; Around the World in 80  Diets.)  The caloric value of his typical day's worth of food in the month of April was 1000 kcals. He is 70 years of age; 5 feet, 6 inches tall; and 103 pounds. Sitarani Tyaagi is one of thousands of ascetic Hindu priests?called Sadhus?that walk the country of India and receive food from observant Hindus. Generally, he eats one meal per day and has water for the other two meals. He has a small pot that he carries with him for water. Offer him more food than a plateful, and he will kindly say, "no thanks."  MODEL RELEASED.
    IND_040420_340_xxw.jpg
  • The Abdulla family with all of their possessions pose for a portrait in front of their home in Kuwait City, Kuwait. Published in the book Material World, pages 236-237. Saif is a college professor who received his Ph.D. from Indiana University in the U.S. His older children have attended school in the U.S. as well.  Like many Kuwaitis the Abdullas enjoy a high standard of living, subsidized by the oil rich country. From Peter Menzel's Material World Project that showed 30 statistically average families in 30 countries with all their possessions.
    Kuw_mw_01a_xxs.jpg
  • Poutasi Village church, Western Samoa on White Sunday. White Sunday (also called Children's Day) is celebrated on the second Sunday of October each year. In this tradition brought to the island by the London Missionary Society, the children receive new clothes and gifts, and festive games are played. Most attend church services and then gather for family feasts that feature foods like pork, taro, and coconuts. Material World Project.
    Wsa_mw_720_xs.jpg
  • Children leave the Poutasi Village church after the annual White Sunday celebration. White Sunday (also called Children's Day) is celebrated on the second Sunday of October each year. In this tradition brought to the island by the London Missionary Society, the children receive new clothes and gifts, and festive games are played. Most attend church services and then gather for family feasts that feature foods like pork, taro, and coconuts. Western Samoa. Material World Project.
    Wsa_mw_719_xs.jpg
  • The Lagavale family, dressed in their Sunday best for the White Sunday holiday church services, cheerfully pose for the camera in Western Samoa. White Sunday (also called Children's Day) is celebrated on the second Sunday of October each year. In this tradition brought to the island by the London Missionary Society, the children receive new clothes and gifts, and festive games are played. The Lagavale family lives in a 720-square-foot tin-roofed open-air house with a detached cookhouse in Poutasi Village, Western Samoa. Material World Project.
    Wsa_mw_713_xs.jpg
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Peter Menzel Photography

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