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         White Sands Missile Range Public Affairs Office:     more detail
  1. Trinity [Atomic Test] Site: 50th Anniversary of the Atomic Bomb by White Sands Missile Range Public Affairs Office, 2008-05-29
  2. Launch Complex 33 (SuDoc D 101.2:L 37) by U.S. Dept of Defense, 1996

41. Historic Traveler.com
Satellites dot the barren landscape at White Sands Missile Range. Missile Range.You can contact the Range s Public Affairs Office at (505) 6781134.
http://historictraveler.away.com/primedia/military/trinity_site.html

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African Vacation!

Congratulations Ronald Fitzgerald , Winner of our Snapshot in Time Contest
Dawn of the Atomic Age: The Trinity Site
What happened here on July 16, 1945, was
literally earth-shaking.
Satellites dot the barren landscape at White Sands Missile Range. There aren't many places where you can stand on a spot where the world changed, fundamentally, in an instant. But you can do it at this isolated location in the New Mexico desert, where the scientists and engineers of the Manhattan Project detonated the world's first atomic bomb. The men who developed and built the bomb at laboratories in Los Alamos, New Mexico, called it the "gadget." It was a plutonium bomb, its explosive force created when precisely timed detonations of TNT fused plutonium in the device's core, creating an atomic chain reaction and releasing enormous amounts of energy. Under the direction of physicist J. Robert Oppenheimer, the Los Alamos team finished their gadget by July 1945. Project leaders decided to conduct the first test at a site on the Alamogordo Bombing and Gunnery Range some 200 miles to the south. At 5:29 in the morning of July 16 they detonated the bomb, which was so powerful it broke windows 120 miles away. "I am become death, the destroyer of worlds," said Oppenheimer, quoting from a Hindu text. Atomic bombs dropped on the Japanese cities of Hiroshima and Nagasaki helped bring World War II to an end, but, in the decades since, the world has been haunted by the specter of nuclear war.

42. Alabama Aerospace Advantages - AMCOM/Redstone Arsenal
For more information, contact the AMCOM Public Affairs Office at the following the High Energy Laser Systems Test Facility at White Sands Missile Range.
http://aerospace.state.al.us/acasi/usarmy.htm
U.S. ARMY AMCOM/REDSTONE ARSENAL
A D V A N T A G E S
HOME
JOBS NEWS COMPANIES ...
Other Advantages
The Aviation and Missile Command (AMCOM) was established in 1997 as a readiness command to develop, acquire, field and sustain Army aviation and missile weapons systems. The Command is headquartered near Huntsville at Redstone Arsenal, Alabama.
AMCOM manages Army aviation and missile systems, from research and development to procurement and production, from spare parts available to flight safety, and from maintenance and overhaul to eventual retirement. AMCOM provides the Army with technologically superior and affordable state-of-the-art aviation and missile systems. AMCOM provides support to the:
Army Program Executive Officer, Aviation
Army Program Executive Officer, Tactical Missiles
Army Program Executive Officer, Air and Missile Defense. Redstone Arsenal is home to some of the nation's most advanced missile and rocket research, development, and test facilities, with a replacement value of more than $2.5 billion. AMCOM manages seven of the Army's 16 SORTS systems, and most of the Army's Foreign Military Sales (FMS) cases. The Command's annual FMS budget averages about $15-20 billion.

43. Marshall Space Flight Center News Release 96-034 (5-8-00)
of ground tests at the US Army White Sands Missile Range, New Mexico, is Public Affairs Office, Building 122, White Sands Missile Range, NM, 88002.
http://www.msfc.nasa.gov/news/news/releases/1996/96-034.html
Back to News Release Index For Release: May 8, 1996 Jim Cast
Headquarters, Washington, DC
(Phone: 202/358-1779) Dom Amatore
Marshall Space Flight Center, Hunstville, AL
(Phone: 205/544-0031)
RELEASE: 96-34 WITH GROUND TESTS COMPLETE, DC-XA TO RESUME FLIGHTS THIS MONTH The Delta Clipper-Experimental Advanced (DC-XA), a single stage rocket developed by NASA and McDonnell Douglas Aerospace, yesterday completed a series of ground tests at the U.S. Army White Sands Missile Range, New Mexico, and now is being readied for flight. The DC-XA will undergo a series of five flight tests beginning no earlier than May 17. The date for the first test will be determined later this week. "Flight testing the DC-XA will provide information about the performance of composite materials and other advanced technologies in the launch vehicle as it encounters the conditions of flight, such as temperature, pressure andnoise. This information will be very valuable for the X-33 technology demonstrator NASA and an industry partner will develop in the future," said Dan Dumbacher, NASA's DC-XA program manager at the Marshall Space Flight Center, Huntsville, AL. Marshall is the host center for NASA's Reusable Launch Vehicle Technology Program. The U.S. Air Force's Phillips Laboratory at Kirtland Air Force Base, New Mexico, will manage flight test operations.

44. Marshall Space Flight Center News Release 96-044 (6-3-96)
June 7 at the White Sands Missile Range in New Mexico. in this event mustreport to the Public Affairs Office, Bldg. 122 at WSMR by 1245 pm
http://www.msfc.nasa.gov/news/news/releases/1996/96-044.html
Back to News Release Index For Release: June 3, 1996 Dom Amatore
Office of Media Services
Dom.Amatore@msfc.nasa.gov RELEASE: 96-44 Second DC-XA Flight Planned for June 7;
Third Flight Could Follow On Same Day
Dumbacher said that if conditions permit, a third flight of the DC-XA may be attempted, possibly as early as eight hours after completion of the second flight in the test series. A decision to attempt that additional flight will be made about four hours after completion of the scheduled test flight. If an additional test is attempted, the DC-XA would fly for 125 seconds, reaching an altitude of 8,600 feet. NOTE TO EDITORS While the DC-XA flight tests are not open to the general public, news media representatives may cover the tests by requesting accreditation from the White Sands Missile Range Public Affairs Office. The written request can be sent to : Debbie Bingham, PAO, Bldg. 122, WSMR, NM 88002-5047, or facsimile machine number 505 678-7174. The office telephone number is 505 678-1134. EVEN THOSE MEDIA REPRESENTATIVES ALREADY ACCREDITED MUST REGISTER IN ADVANCE FOR EACH FLIGHT TO ENSURE ADEQUATE TRANSPORTATION TO THE TEST SITE. Media planning to view the test flight must be at Bldg. 122 by 5:30 a.m. on flight day, June 7. On Thursday, June 6, a photo opportunity and media availability will be conducted at the test site. Media will have an opportunity to photograph the DC-XA on its launch pad, and interview program managers.

45. Press Release - Public Affairs Office, NAVAIR, Patuxent River
Public Affairs Office NAVAIR, Patuxent River navairpao@navair.navy.mil White Sands Missile TEST Range, NM The Navy s next generation of Tomahawk
http://www.usmc.mil/marinelink/mcn2000.nsf/0/F54A6F5DC3BFB40A85256FEB004878B0?op

46. Trinity Site 1945-1995. A National Historic Landmark White Sands
White Sands Missile Range. Reading List. The effects could well be called on Trinity Site or White Sands Missile Range contact Public Affairs Office
http://www.cddc.vt.edu/host/atomic/trinity/trnty10b.txt
Trinity Site: 1945-1995. A National Historic Landmark White Sands Missile Range, New Mexico Contents: Radiation at Trinity Site. How to Get to Trinity Site. Trinity Site National Historic Landmark. The Manhattan Project. The Theory. Building a test site. Jumbo. Bomb Assembly. The test. After the explosion. It's the Schmidt house. Afterwards. White Sands Missile Range. Reading List. "The effects could well be called unprecedented, magnificent, beautiful, stupendous, and terrifying. No man-made phenomenon of such tremendous power had ever occurred before. The lighting effects beggared description. The whole country was lighted by a searing light with the intensity many times that of the midday sun." Brig. Gen. Thomas Farrell Radiation at Trinity Site In deciding whether to visit ground zero at Trinity Site, the following information may prove helpful to you. Radiation levels in the fenced, ground zero area are low. On an average the levels are only 10 times greater than the region's natural background radiation. A one-hour visit to the inner fenced area will result in a whole body exposure of one-half to one milliroentgen. To put this in perspective, a U.S. adult receives an average exposure of 90 milliroentgens every year from natural and medical sources. For instance, the Department of Energy says we receive between 35 and 50 milliroentgens every year from the sun and from 20 to 35 milliroentgens every year from our food. Living in a brick house adds 50 milliroentgens of exposure every year compared to living in a frame house. Finally, flying coast to coast in a jet airliner gives an exposure of between three and five milliroentgens on each trip. Although radiation levels are low, some feel any extra exposure should be avoided. The decision is yours. It should be noted that small children and pregnant women are potentially more at risk than the rest of the population and are generally considered groups who should only receive exposure in conjunction with medical diagnosis and treatment. Again, the choice is yours. At ground zero, Trinitite, the green, glassy substance found in the area, is still radioactive and must not be picked up. Typical radiation exposures for Americans Per The National Council on Radiation Protection On hour at ground zero = 1/2 mrem Cosmic rays from space = 40 mrem at sea level per year Radioactive minerals in rocks and soil = 55 mrems per year Radioactivity from air, water, and food = anywhere from 20 to 400 mrem per year About 22 mrem per chest X-ray and 900 mrem for whole-mouth dental X- rays Smoking one pack of cigarettes a day for one year = 40 mrem Miscellaneous such as watch dials and smoke detectors = 2 mrem per year How to Get to Trinity Site Trinity Site, where the world's first atomic bomb was exploded in 1945, is normally open to the public twice a yearon the first Saturday in April and October. Trinity is located on the northern end of the 3,200-square-mile White Sands Missile Range, N.M., between the towns of Carrizozo and Socorro, N.M. There are two ways of entering the restricted missile range on tour days. Visitors can enter through the range's Stallion Range Center which is five miles south of Highway 380. The turnoff is 12 miles east of San Antonio, N.M. , and 53 miles west of Carrizozo, N.M. The Stallion gate will be open 8 a.m. to 2 p.m. Visitors arriving at the gate between those hours will receive handouts and will be allowed to drive unescorted the 17 miles to Trinity Site. The road is paved and marked. The other way of entering the missile range is by travelling with a caravan sponsored by the Alamogordo (N.M.) Chamber of Commerce. The caravan forms at the Otero County Fairgrounds in Alamogordo and leaves at 8 a.m. Visitors entering this way will travel as an escorted group with military police to and from Trinity Site. The drive is 170 miles round trip. There are no service station facilities on the missile range. The caravan is scheduled to leave Trinity Site at 12:30 p.m. for the return to Alamogordo. The caravan may leave later if there is a large number of vehicles in the returning caravan. In 1995, an additional open house will be conducted on July 16, the 50th anniversary of the Trinity test. Visitors may enter the missile range through the Stallion Range Center gate from 5 to 11 a.m. There will be no caravan leaving from Alamogordo, N.M., for this event. The early hours will allow visitors to be on-site at 5:29:45 a.m., the time the Trinity Site detonation occurred, and should help visitors avoid the 100-plus degree afternoon temperatures common here in July. Included on the Trinity Site tour is Ground Zero where the atomic bomb was placed on a 100-foot steel tower and exploded on July 16, 1945. A small monument now marks the spot. Visitors also see the McDonald ranch house where the world's first plutonium core for a bomb was assembled. The missile range provides historical photographs and a Fat Man bomb casing for display. There are no ceremonies or speakers. Portable toilet facilities are available on site. Hot dogs and sodas are sold at the parking lot. Cameras are allowed at Trinity Site, but their use is strictly prohibited anywhere else on White Sands Missile Range. For more information, contact the White Sands Missile Range Public Affairs Office at (505) 678-1134/1700. Trinity Site National Historic Landmark Trinity Site is where the first atomic bomb was tested at 5:29:45 a.m. Mountain War Time on July 16, 1945. The 19 kiloton explosion not only led to a quick end to the war in the Pacific but also ushered the world into the atomic age. All life on Earth has been touched by the event which took place here. The 51,500-acre area was declared a national historic landmark in 1975. The landmark includes base camp, where the scientists and support group lived; ground zero, where the bomb was placed for the explosion; and the McDonald ranch house, where the plutonium core to the bomb was assembled. On your visit to Trinity Site you will be able to see ground zero and the McDonald ranch house. In addition, on your drive into the Trinity Site area you will pass one of the old instrumentation bunkers which is beside the road just west of ground zero. The Manhattan Project The story of Trinity Site begins with the formation of the Manhattan Project in June 1942. The project was given overall responsibility of designing and building an atomic bomb. At the time it was a race to beat the Germans who, according to intelligence reports, were building their own atomic bomb. Under the Manhattan Project three large facilities were constructed. At Oak Ridge, Tenn., huge gas diffusion and electromagnetic process plants were built to separate uranium 235 from its more common form, uranium 238. Hanford, Wash. became the home for nuclear reactors which produced a new element called plutonium. Both uranium 235 and plutonium are fissionable and can be used to produce an atomic explosion. Los Alamos was established in northern New Mexico to design and build the bomb. At Los Alamos many of the greatest scientific minds of the day labored over the theory and actual construction of the device. The group was led by Dr. J. Robert Oppenheimer who is credited with being the driving force behind building a workable bomb by the end of the war. The Theory Los Alamos scientists devised two designs for an atomic bombone using the uranium and another using the plutonium. The uranium bomb was a simple design and scientists were confident it would work without testing. The plutonium bomb worked by compressing the plutonium into a critical mass which sustains a chain reaction. The compression of the plutonium ball was to be accomplished by surrounding it with lens-shaped charges of conventional explosives. They were designed to all explode at the same instant. The force is directed inward, thus smashing the plutonium from all sides. In an atomic explosion, a chain reaction picks up speed as atoms split, releasing neutrons plus great amounts of energy. The escaping neutrons strike and split more atoms, thus releasing still more neutrons and energy. In a nuclear explosion this all occurs in a millionth of a second with billions of atoms being split. Project leaders decided a test of the plutonium bomb was essential before it could be used as a weapon of war. From a list of eight sites in California, Texas, New Mexico and Colorado, Trinity Site was chosen as the test site. The area already was controlled by the government because it was part of the Alamogordo Bombing and Gunnery Range which was established in 1942. The secluded Jornado del Muerto was perfect as it provided isolation for secrecy and safety, but was still close to Los Alamos. Building a test site In the fall of 1944 soldiers started arriving at Trinity Site to prepare for the test. Marvin Davis and his military police unit arrived from Los Alamos at the site on Dec. 30, 1944. The unit set up security checkpoints around the area and had plans to use horses to ride patrol. According to Davis the distances were too great and they resorted to jeeps and trucks for transportation. The horses were sometimes used for polo, however. Davis said that Capt. Bush, base camp commander, somehow got the soldiers real polo equipment to play with but they preferred brooms and a soccer ball. Other recreation at the site included volleyball and hunting. Davis said Capt. Bush allowed the soldiers with experience to use the Army rifles to hunt deer and pronghorn. The meat was then cooked up in the mess hall. Leftovers went into soups which Davis said were excellent. Of course, some of the soldiers were from cities and unfamiliar with being outdoors a lot. Davis said he went to relieve a guard at the Mockingbird Gap post and the soldier told Davis he was surprised by the number of "crawdads" in the area considering it was so dry. Davis gave the young man a quick lesson on scorpions and warned him not to touch. Throughout 1945 other personnel arrived at Trinity Site to help prepare for the test. Carl Rudder was inducted into the Army on Jan. 26, 1945. He said he passed through four camps, took basic for two days and arrived at Trinity Site on Feb. 17. On arriving he was put in charge of what he called the "East Jesus and Socorro Light and Water Company." It was a one-man operationhimself. He was responsible for maintaining generators, wells, pumps and doing the power line work. A friend of Rudder's, Loren Bourg, had a similar experience. He was a fireman in civil life and ended up trained as a fireman for the Army. He worked as the station sergeant at Los Alamos before being sent to Trinity Site in April 1945. In a letter Bourg said, "I was sent down here to take over the fire prevention and fire department. Upon arrival I found I was the fire department, period." As the soldiers at Trinity Site settled in they became familiar with Socorro. They tried to use the water out of the ranch wells but found it so alkaline they couldn't drink it. In fact, they used Navy salt- water soap for bathing. They hauled drinking water from the fire house in Socorro. Gasoline and diesel was purchased from the Standard bulk plant in Socorro. According to Davis, they established a post office box, number 632, in Socorro so getting their mail was more convenient. The trips into town also offered them the chance to get their hair cut in a real barbershop. If they didn't use the shop, Sgt. Greyshock used horse clippers to trim their hair. Jumbo The bomb design to be used at Trinity Site actually involved two explosions. First there would be a conventional explosion involving the TNT and then, a fraction of a second later, the nuclear explosion, if a chain reaction was maintained. The scientists were sure the TNT would explode, but were initially unsure of the plutonium. If the chain reaction failed to occur, the TNT would blow the very rare and dangerous plutonium all over the countryside. Because of this possibility, Jumbo was designed and built. Originally it was 25 feet long, 10 feet in diameter and weighed 214 tons. Scientists were planning to put the bomb in this huge steel jug because it could contain the TNT explosion if the chain reaction failed to materialize. This would prevent the plutonium from being lost. If the explosion occurred as planned, Jumbo would be vaporized. Jumbo was brought to Pope, N.M., by rail and unloaded. A specially built trailer with 64 wheels was used to move Jumbo the 25 miles to Trinity Site. As confidence in the plutonium bomb design grew it was decided not to use Jumbo. Instead, it was placed in a steel tower about 800 yards from ground zero. The blast destroyed the tower, but Jumbo survived intact. Today Jumbo rests at the entrance to ground zero so all can see it. The ends are missing because, in 1946, the Army detonated eight 500- pound bombs inside it. Because Jumbo was standing on end, the bombs were stacked in the bottom and the asymmetry of the explosion blew the ends off. To calibrate the instruments which would be measuring the atomic explosion and to practice a countdown, the Manhattan scientists ran a simulated blast on May 7. They stacked 100 tons of TNT onto a 20-foot wooden platform just southeast of ground zero. Louis Hemplemann inserted a small amount of radioactive material from Hanford into tubes running through the stack of crates. The scientists hoped to get a feel for how the radiation might spread in the real test by analyzing this test. The explosion destroyed the platform, leaving a small crater with trace amounts of radiation in it. Bomb Assembly On July 12 the two hemispheres of plutonium were carried to the George McDonald ranch house just two miles from ground zero. At the house, Brig. Gen. Thomas Farrell, deputy to Maj. Gen. Leslie Groves, was asked to sign a receipt for the plutonium. Farrell later said, "I recall that I asked them if I was going to sign for it shouldn't I take it and handle it. So I took this heavy ball in my hand and I felt it growing warm, I got a certain sense of its hidden power. It wasn't a cold piece of metal, but it was really a piece of metal that seemed to be working inside. Then maybe for the first time I began to believe some of the fantastic tales the scientists had told about this nuclear power." At the McDonald ranch house the master bedroom had been turned into a clean room for the assembly of the bomb core. According to Robert Bacher, a member of the assembly team, they tried to use only tools and materials from a special kit. Several of these kits existed and some were already on their way to Tinian, the island in the Pacific which was the base for the bombers. The idea was to test the procedures and tools at Trinity as well as the bomb itself. At one minute past midnight on Friday, July 13, the explosive assembly left Los Alamos for Trinity Site. Later in the morning, assembly of the plutonium core began. According to Raemer Schreiber, Robert Bacher was the advisor and Marshall Holloway and Philip Morrison had overall responsibility. Louis Slotin, Boyce McDaniel and Cyril Smith were responsible for the mechanical assembly in the ranch house. Later Holloway was responsible for the mechanical assembly at the tower. In the afternoon of the 13th the core was taken to ground zero for insertion into the bomb mechanism. The bomb was assembled under the tower on July 13. The plutonium core was inserted into the device with some difficulty. On the first try it stuck. After letting the temperatures of the plutonium and casing equalize the core slid smoothly into place. Once the assembly was complete many of the men took a welcome relief and went swimming in the water tank east of the McDonald ranch house. The next morning the entire bomb was raised to the top of the 100 foot steel tower and placed in a small shelter. A crew then attached all the detonators and by 5 p.m. it was complete. The test Three observation points were established at 10,000 yards from ground zero. These were wooden shelters protected by concrete and earth. The south bunker served as the control center for the test. The automatic firing device was triggered from there as key men such as Dr. Robert Oppenheimer, head of Los Alamos, watched. None of the manned bunkers are left. Many scientists and support personnel, including Gen. Leslie Groves, head of the Manhattan Project, watched the explosion from base camp which was ten miles southwest of ground zero. All the buildings at base camp were removed after the test. Most visiting VIPs watched from Compania Hill, 20 miles northwest of ground zero. The test was scheduled for 4 a.m. July 16, but rain and lightning early that morning caused it to be postponed. The device could not be exploded under rainy conditions because rain and winds would increase the danger from radioactive fallout and interfere with observation of the test. At 4:45 a.m. the crucial weather report came through announcing calm to light winds with broken clouds for the following two hours. At 5:10 the countdown started and at 5:29:45 the device exploded successfully. To most observers the brilliance of the light from the explosionwatched through dark glassesovershadowed the shock wave and sound that arrived later. Hans Bethe, one of the contributing scientists, wrote "it looked like a giant magnesium flare which kept on for what seemed a whole minute but was actually one or two seconds. The white ball grew and after a few seconds became clouded with dust whipped up by the explosion from the ground and rose and left behind a black trail of dust particles." Joe McKibben, another scientist, said, "We had a lot of flood lights on for taking movies of the control panel. When the bomb went off, the lights were drowned out by the big light coming in through the open door in the back." Others were impressed by the heat they immediately felt. Military policeman Davis said, "The heat was like opening up an oven door, even at 10 miles." Dr. Phillip Morrison said, "Suddenly, not only was there a bright light but where we were, 10 miles away, there was the heat of the sun on our faces....Then, only minutes later, the real sun rose and again you felt the same heat to the face from the sunrise. So we saw two sunrises." After the explosion Although no information on the test was released until after the atomic bomb was used as a weapon against Japan, people in New Mexico knew something had happened. The shock broke windows 120 miles away and was felt by many at least 160 miles away. Army officials simply stated that a munitions storage area had accidentally exploded at the Alamogordo Bombing Range. The explosion did not make much of a crater. Most eyewitnesses describe the area as more of a small depression instead of a crater. The heat of the blast did melt the desert sand and turn it into a green glassy substance. It was called Trinitite and can still be seen in the area. At one time Trinitite completely covered the depression made by the explosion. Afterwards the depression was filled and much of the Trinitite was taken away by the Nuclear Energy Commission. To the west of the monument is a low structure which is protecting an original portion of the crater area. Trinitite is visible through openings in the roof. It's the Schmidt house The George McDonald ranch house sits within an 85'x85' low stone wall. The house was built in 1913 by Franz Schmidt, a German immigrant, and an addition was constructed on the north side in the 1930's by the McDonalds. There is a display about the Schmidt family in the house during each open house. The ranch house is a one-story, 1,750 square-foot building. It is built of adobe which was plastered and painted. An ice house is located on the west side along with an underground cistern which stored rain water running off the roof. At one time the north addition contained a toilet and bathtub which drained into a septic tank northwest of the house. There is a large, divided water storage tank and a Chicago Aeromotor windmill east of the house. The scientists and support people used the north tank as a swimming pool during the long hot summer of 1945. South of the windmill are the remains of a bunkhouse and a barn which was part garage. Further to the east are corrals and holding pens. The buildings and fixtures east of the house have been stabilized to prevent further deterioration. The ranch was abandoned in 1942 when the Alamogordo Bombing and Gunnery Range took over the land to use in training World War II bombing crews. The house stood empty until the Manhattan Project support personnel arrived in early 1945. Inside the house the northeast room (the master bedroom) was designated the assembly room. Work benches and tables were installed. To keep dust and sand out of instruments and tools, the windows were covered with plastic. Tape was used to fasten the edges of the plastic and to seal doors and cracks in the walls. The explosion, only two miles away, did not significantly damage the house. Most of the windows were blown out, but the main structure was intact. Years of rain water dripping through holes in the roof did much more damage. The barn did not do as well. During the Trinity test the roof was bowed inward and some of the roofing was blown away. The roof has since collapsed. The house stood empty and deteriorating until 1982 when the U.S. Army stabilized the house to prevent any further damage. Shortly after, the Department of Energy and U.S. Army provided the funds for the National Park Service to completely restore the house. The work was done in 1984. All efforts were directed at making the house appear as it did on July 12, 1945. Afterwards The story of what happened at Trinity Site did not come to light until after the second atomic bomb was exploded over Hiroshima, Japan, on August 6. President Truman made the announcement that day. Three days later, August 9, the third atomic bomb devastated the city of Nagasaki, and on August 14 the Japanese surrendered. Trinity Site became part of what was then White Sands Proving Ground. The proving ground was established on July 9, 1945, as a test facility to investigate the new rocket technology emerging from World War II. The land, including Trinity Site and the old Alamogordo Bombing Range, came under the control of the new rocket and missile testing facility. Interest in Trinity Site was immediate. In September 1945 press tours to the site started. One of the famous photos of ground zero shows Robert Oppenheimer and General Leslie Groves surrounded by a small group of reporters as they examine one of the footings to the 100 foot tower on which the bomb was placed. That picture was taken Sept. 11. The exposed footing is still visible at ground zero. On Sept. 15-17, George Cremeens, a young radio reporter from KRNT in Des Moines, visited the site with soundman Frank Lagouri. They flew over the crater and interviewed Dr. Kenneth Bainbridge, Trinity test director, and Capt. Howard Bush, base camp commander. Back in Iowa, Cremeens created four 15-minute reports on his visit which aired Sept. 24, 26, 27 and 29. A 15-minute composite was made and aired on the ABC Radio Network. For his work Cremeens received a local Peabody Award for "Outstanding Reporting and Interpretation of the News." At first Trinity Site was encircled with a fence and radiation warning signs were posted. The site remained off-limits to military and civilian personnel of the proving ground and closed to the public. In 1952 the Atomic Energy Commission let a contract to clean up the site. Much of the Trinitite was scraped up and buried. In September 1953 about 650 people attended the first Trinity Site open house. A few years later a small group from Tularosa visited the site on an anniversary of the explosion to conduct a religious service and prayers for peace. Similar visits have been made annually in recent years on the first Saturday in October. In 1967 the inner oblong fence was added. In 1972 the corridor barbed wire fence which connects the outer fence to the inner one was completed. Jumbo was moved to the parking lot in 1979. Visits to the site are now made in April and October because it is generally so hot in July on the Jornada del Muerto. White Sands Missile Range White Sands Missile Range has developed from a simple desert testing site for the V-2 into one of the most sophisticated test facilities in the world. The mission of White Sands Missile Range begins with a customera service developer, or another federal agency, which is ready to find out if engineers and scientists have built something which will perform according to job specifications. It ends when an exhaustive series of tests has been completed and a data report has been delivered to the customer. Between the beginning and the end of the test program, be it the Army Tactical Missile System or newly designed automobiles, range employees are involved in every operation connected with the customer and his product. The range can and does provide everything from rat traps to telephones, from equipment hoists and flight safety to microsecond timing. We shake, rattle and roll the product, roast it, freeze it, subject it to nuclear radiation, dip it in salt water and roll it in the mud. We test its paint, bend its frame and find out what effect its propulsion material has on flora and fauna. In the end, if it's a missile, we fire it, record its performance and bring back the pieces for post mortem examination. All test data is reduced and the customer receives a full report. For more information on Trinity Site or White Sands Missile Range contact: Public Affairs Office (STEWS-PA) White Sands Missile Range White Sands Missile Range, N.M. 88002-5047 Reading List The Day the Sun Rose Twice, by Ferenc Szasz, University of New Mexico Press, 1984. Manhattan: The Army and the Atomic Bomb, by Vincent Jones, Center of Military History, U. S. Army. Trinity, by Kenneth Bainbridge, Los Alamos publication (LA-6300-H). The Making of the Atomic Bomb, by Richard Rhodes, Simon and Schuster, 1986. Now It Can Be Told, by General Leslie Groves, Da Capo Press, 1975. Day One, By Peter Wyden, Simon and Schuster, 1984. City of Fire: Los Alamos and the Atomic Age, 1943-1945, by James Kunetka, University of New Mexico Press, 1978. Los Alamos 1943-1945: The Beginning of an Era, Los Alamos Publication (LASL-79-78). Day of Trinity, by Lansing Lamont, Atheneum. Radiological Survey and Evaluation of the Fallout Area from the Trinity Test: Chupadera Mesa and White Sands Missile Range, N. M., Los Alamos publication (LA-10256-MS). Life Magazine, August 20 and September 24, 1945. Time Magazine, August 13 and 20, 1945.

47. A Nuclear Family Vacation - Where Was Harold Agnew The Day The U.S. Detonated Th
White Sands Missile Range, NM—It was nearing 100 degrees, we were almost 20 milesfrom contact the Public Affairs Office at White Sands Missile Range.
http://slate.msn.com/id/2122382/entry/0/
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From: Nathan Hodge and Sharon Weinberger
Subject: The Journey of Death
Friday, July 15, 2005, at 5:35 AM PT Click here to see a slide show. WHITE SANDS MISSILE RANGE, N.M.—It was nearing 100 degrees, we were almost 20 miles from the nearest town, and we desperately needed something a mere 20 feet away. The sentry looked at us sympathetically but shook his head no: We wouldn't be allowed to use the portable toilet on the other side of the gate until our security escort arrived. This was, after all, not just Trinity, site of the first atomic bomb test, but also White Sands Missile Range , an active Army facility. Rules were rules. We climbed back into the rental car and prepared to wait. We had made the 90-minute drive down from Albuquerque to go on an escorted tour of Trinity, but we were distracted from our lofty historic reflections by more mundane needs. Continue Article placeAd(2,'slate.travel/slate')

48. The Project Gutenberg Etext Of Trinity [Atomic Test] Site - Larry Lavitt
Trinity Atomic Test Site by White Sands Missile Range Public Affairs on Trinity Site or White Sands Missile Range contact Public Affairs Office
http://web.ncf.ca/lavitt/louisslotin/2trnt10.html

49. MDA Link
US Army Program Executive Office Air and Missile Defense Public Affairs OfficeHuntsville, Ala. TO BE CONDUCTED AT White Sands Missile Range
http://www.mda.mil/mdalink/html/dt7test.html
News / Resources Missile Defense News Images Videos Congressional Testimony / Statements ... MDA Glossary (pdf) Ballistic Missile Defense System Overview (pdf) FAQs Software Utilities Links U.S. Army Program Executive Office Air and Missile Defense
Public Affairs Office
Huntsville, Ala.
July 21, 2000 FOR IMMEDIATE RELEASE
PAC-3 INTERCEPT TEST
TO BE CONDUCTED AT WHITE SANDS MISSILE RANGE
The Ballistic Missile Defense Organization and the U.S. Army plan to conduct an intercept test flight of a Patriot Advanced Capability 3 (PAC-3) Missile at White Sands Missile Range, N.M., Saturday, July 22, at approximately 7:00 a.m. Mountain Daylight Time. This test had previously been scheduled for Wednesday, July 19, but was postponed because of a failure of the Simulated Launch Adapter (SLA), a non-tactical piece of test equipment used as a safety device in pre-flight readiness checks. The delay had no effect on missile or target readiness. This will be the sixth flight test of the PAC-3 system. The PAC-3 Missile is a high velocity, hit-to-kill missile and is the next generation Patriot missile being developed to provide increased capability against advanced tactical ballistic missiles, cruise missiles and hostile aircraft.

50. Representation Community
Jim Eckles of the PublicAffairs Office at White Sands Missile Range has escortedfilm crews from Japan and Italy into Trinity Site in recent weeks.
http://leehiphopshow.ipbhost.com/lofiversion/index.php/t5486.html
Help Search Member List Calendar Full Version: Representation Community Representation Community

51. LLNL And US Army Space And Missile Defense Command To Unveil Solid State Heat Ca
1782 (Public Affairs Office) and arrive not later than 830 am, Sept. 28, 2001.Upon your arrival to the White Sands Missile Range, be advised that
http://www.scienceblog.com/community/older/2001/B/200112743.html
September 2001
From DOE/Lawrence Livermore National Laboratory
LLNL and US Army Space and Missile Defense Command to unveil Solid State Heat Capacity Laser
What: Lawrence Livermore National Laboratory, in conjunction with The High Energy Laser Systems Test Facility (HELSTF), a subordinate element of the U.S. Army Space and Missile Defense Command (SMDC), will unveil its new Solid State Heat Capacity Laser (SSHCL) during a ribbon cutting ceremony. The SSHCL program began in FY97 through congressional funding under an agreement between SMDC and Lawrence Livermore National Laboratory (LLNL) in California. The first of its kind, the SSHCL is a 10-kilowatt laser designed with high potential for the Army’s Future Combat System (FCS) applications. Who: The guest speaker for the ceremony will be Lt. Gen. Joseph M. Cosumano Jr., commanding general, SMDC. When: 10 a.m. MDT on September 28, 2001 Where: White Sands Missile Range, N.M. NOTE: News media interested in attending the ceremony should contact Marco Morales at 256-955-2158 or Debbie Bingham at 505-678-1134 (**See further details below). To register for this event, or, if you need directions to White Sands Missile Range (WSMR), please call Debbie Bingham at 505-678-1134 by noon Thursday, Sept. 27, 2001.

52. DefenseLINK News: White Sands Seeks Signups For Bataan Memorial March
American Forces Press Service WASHINGTON White Sands Missile Range, NM, or call the Public Affairs Office at (505) 6781134 or DSN 258-1134.
http://www.defenselink.mil/news/Jan1999/n01071999_9901072.html
Sep. 12, 2005 War on Terror Transformation News Products Press Resources ... Contact Us
White Sands Seeks Signups for Bataan Memorial March
American Forces Press Service http://www.wsmr.army.mil , as it becomes available, or call the public affairs office at (505) 678-1134 or DSN 258-1134. Printer-friendly Version
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Updated: 14 Jan 2003
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DoD News

Advisories

Contracts

Live Briefings
... War on Terrorism

53. Operational Test Command Mentors Students In Robotics Competition - U.S. Departm
By Operational Test Command Public Affairs Office maneuver area comprisingapproximately 937000 acres bordering White Sands Missile Range, New Mexico,
http://www.defenselink.mil/transformation/articles/2005-01/ta012405g.html
TRANSFORMATION ABOUT US DEFENSE LEADERSHIP DOCUMENTS FACTSHEETS ... HOME SPECIAL REPORTS FACING THE FUTURE TRAINING FOR FUTURE ARMY TEST COMMAND GOING MODULAR A T-34 chase aircraft during a mission of a low velocity airdrop of the M1025 Missile Carrier with driver's vision enhancer at Fort Bragg, North Carolina. Photo by Ronald McGinnis Air Defense Artillery Test Directorate By Operational Test Command Public Affairs Office FORT HOOD, Texas, Jan. 28, 2005 Covering the full spectrum of tests from force development test and experimentation or initial operational test to limited user test and customer tests, the directorate also participates in advanced warfighting experiments and joint testing. With extensive live-fire range capabilities and maneuver area comprising approximately 937,000 acres bordering White Sands Missile Range, New Mexico, the directorate has conducted missile and gun live-fire tests of the TOW, PATRIOT, Avenger, HAWK, Army Tactical Missile System, Stinger, Bradley Linebacker, MLRS, and the Forward Area Air Defense System. The directorate also has the capability to use non-eye safe lasers up to 30 kilometers. With unlimited ceiling and controlled airspace to fly unmanned aerial vehicles and realistic aircraft threatprofiles for air and missile defense testing, and the ability to intercept ballistic targets, the directorte is able to collect required data for independent operational test and evaluation of weapons systems. It employs highly sophisticated and state-of-the-art instrumentation in its test data collection efforts.

54. AIM-120 AMRAAM
Fla.; White Sands Missile Range, NM; and Point Mugu, Calif. Air CombatCommand, Public Affairs Office; 115 Thompson St., Suite 211; Langley AFB, Va.
http://usmilitary.about.com/library/milinfo/affacts/blaim-120amraam.htm
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Mission
The AIM-120 advanced medium-range air-to-air missile (AMRAAM) is a new generation air-to-air missile. It has an all-weather, beyond-visual-range capability and is scheduled to be operational beyond 2000. The AMRAAM is being procured for the Air Force, U.S. Navy and America's allies.
Features
The AMRAAM program improves the aerial combat capabilities of U.S. and allied aircraft to meet current and future threat of enemy air-to-air weapons. AMRAAM is compatible with the Air Force F-15, F-16 and developmental F-22; Navy F-14 D/D (R) and F/A-18 C/D; German F-4 and the British Sea Harrier aircraft. AMRAAM is a follow-on to the AIM-7 Sparrow missile series. The missile is faster, smaller and lighter, and has improved capabilities against low-altitude targets. It incorporates active radar with an inertial reference unit and micro-computer system, which makes the missile less dependent upon the fire-control system of the aircraft. Once the missile closes on a target, its active radar guides it to intercept. This enables the pilot to aim and fire several missiles simultaneously at multiple targets. The pilot may then perform evasive maneuvers while the missiles guide themselves to their targets.

55. The V-2 (A4) Ballistic Missile Technology
V2 Rocket. White Sands Missile Range. Public Affairs Office.http//www.wsmr.army.mil/paopage/Pages/V-2.htm. Educational Organization
http://www.centennialofflight.gov/essay/Evolution_of_Technology/V-2/Tech26.htm

56. Los Alamos National Laboratory (LANL): Los Alamos National Laboratory Joins The
Contact Public Affairs Office, wwwnews@lanl.gov, (505) 667-7000 (01-) was secured through the US Army, which runs the White Sands Missile Range.
http://www.lanl.gov/news/index.php?fuseaction=home.story&story_id=1154

57. RPSD Tours
which now comprises a part of the US Army White Sands Missile Range, A representative of the Public Affairs Office of the White Sands Missile Range
http://www.lanl.gov/RPSD2002/tours.shtml
Tours Not wanting to sit around the hotel all day with nothing to do? Join us on three special tours we have put together for your enjoyment. A minimum number of participants will be required for each tour. If the tours are cancelled because of lack of participation, a full refund will be given. The maximum number of participants allowed on a tour will be determined by the specific bus capacity. Tours will be filled on a first-come, first-served basis. Monday, April 15, 2002
A four-hour tour of Santa Fe by bus. This "City Different" tour features important historic areas and museums, the famous Canyon Road area, and other highlights of Santa Fe. Santa Fe's history, architecture, and cultural traditions will make your time here memorable. Your driver-guide will offer tips on what to do and places to see. The tour includes stops at the Wheelwright Museum of the American
Indian and two popular galleries, Peters Gallery and Fenn Gallery.

58. Testing - Paving The Way To Missile Shootdown
Airborne Laser System Program Office, Office of Public Affairs, the MARTIand Lances will be conducted over the White Sands Missile Range in New Mexico.
http://www.boeing.com/defense-space/military/abl/news/2003/110003-testing.html
Airborne Laser System Program Office, Office of Public Affairs,
3300 Target Road, Building 760, Kirtland AFB, NM
Testing - Paving the Way to Missile Shootdown Now comes the fun part. After years of planning and organization, months of assembling and connecting hardware, and weeks of flying an almost empty airplane, Airborne Laser (ABL) developers are on the verge of proving that the revolutionary aircraft is capable of destroying something, most notably a likely enemy ballistic missile or, in militaryease, a Foreign Military Asset (FMA). Shortly after the Pacific demonstration, ABL was secluded in a hangar at Edwards Air Force Base in California pending testing of its lasers and the extremely intricate optical system. Once those elements have been certified operational they will be installed in the aircraft.
After installation, the ABL team will wring out the system during an extensive series of exercises ranging from open-air ground testing through non-lethal flight testing to the shootdown of the first of five ballistic missiles it has acquired for the test phase.

59. The New Mexico Museum Of Space History - Shuttle Camp
Public Affairs Office; NASA, Johnson Space Center s White Sands Test Facility; Sunspot, NM; New Mexico Tech; White Sands Missile Range, White Sands
http://www.spacefame.org/camp.html
"An Adventure You'll Never Forget" For more information on this program contact the
NMMSH Education Department at 877-333-6589 (toll-free) or 505-437-2840
ltookey@dca.state.nm.us

Discovery, Understanding and Adventure
Mission
LOCATION
New Mexico Museum of Space History, Alamogordo, NM
PURPOSE
Science enrichment, based on space, space technology and astronomy
MISSION FREQUENCY
Week-long summer science sessions commencing June 6 through August 5. Offered as both day-camp programs and overnight (residential) programs.
DESIRED LEARNING OBJECTIVE
Integrated "hands-on learning" and out-of-the ordinary learning opportunities not offered in other venues. Tuition includes: T-shirt, field trips and other fees associated with the New Mexico Museum of Space History. Program costs range from $95 for half-day programs to $475 for overnight sessions. Please check the registration form carefully for proper program tuition. Overnight sessions also include housing (five nights), 24-hour supervision, special evening activities and meals. Camp sessions last one week. Camp Programs Overnight program information Registration Instructions Common Questions Refund Policy You will need to have the Adobe Acrobat Reader to view the two pdf files. This is a free program and can be downloaded from:

60. TAB C - Bibliography
US Air Force, Air Combat Command Public Affairs Office, Fact Sheet, Subject E3 US Army, White Sands Missile Range, Letter from the Material Test
http://www.gulflink.osd.mil/al_jub_ii/al_jub_ii_tabc.htm
TAB C - Bibliography I Marine Expeditionary Force, G-3 journal, January 19, 1991. st Surveillance Reconnaissance Intelligence Group, Significant Events Report, February 21, 1991. d Battalion, 24 th Marines, Watch Log (Extract), January 19, 1991. th Marines Rear Area Operations Center, Radio Station Log, January 18-19, 1991. 552d Air Control Wing, Letter from the Commander, Subject: "Report on Investigation of AWACS Tapes from 19 January 1991," undated. 552d Air Control Wing, Letter from the Commander, Subject: "Report on Investigation of AWACS Tapes from 19 January 1991," December 1998. 552d Air Control Wing, Letter, Subject: "Report on Replays Conducted for the SECDEF Request for Assistance," February 2, 1998. 552d Computer Group Tinker Air Force Base, Oklahoma, Letter, Subject: "Request for Assistance," undated. Baskin, Steven J., and Thomas G. Brewer, "Cyanide Poisoning," "Medical Aspects of Chemical and Biological Warfare," eds. Frederick R. Sidell, COL Ernest T. Takafuji, and COL David R. Franz, "Part I, Warfare, Weapons, and the Casualty," Textbook of Military Medicine: Medical Aspects of Chemical and Biological Warfare, eds. BG Russ Zajtchuk and COL Ronald F. Bellamy, Office of the Surgeon General, Walter Reed Army Medical Center, Washington, DC, 1997 Berg SW, Navy Environmental and Preventive Medicine Unit Number 2, "Post Persian Gulf Medical Findings in Military Reservists," Report presented to NIH Technology Assessment Conference on the Persian Gulf Experience and Health, Bethesda MD, April 1994 and to the Institute of Medicine Committee to Review the Consequences of Service during the Gulf War.

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