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The Warsaw Ghetto Uprising was the Jewish resistance that arose within the Warsaw Ghetto in German occupied Poland during World War II, and which opposed Nazi Germany's effort to transport the remaining ghetto population to Treblinka extermination camp. The insurgency was launched against the Germans on January 18, 1943. The most significant portion of the rebellion took place from April 19 until May 16, 1943, and ended when the poorly armed and supplied resistance was crushed by the German troops under the direct command of Jurgen Stroop. It was the largest single revolt by the Jews during the Holocaust. Ultimately, the efforts of the Jewish resistance fighters proved insufficient against the German forces. The Germans eventually committed an average daily force of 2,090 well-armed troops, including 821 Waffen-SS Panzergrenadier troops (consisting of five SS reserve and training battalions and one SS cavalry reserve and training battalion), as well as 363 Polish Blue Policemen, who were ordered by the Germans to cordon the walls of the Ghetto. Approximately 13,000 Jews were killed in the ghetto during the uprising (some 6,000 among them were burnt alive or died from smoke inhalation). Of the remaining 50,000 residents, most were captured and shipped to concentration and extermination camps, in particular to Treblinka. A number of survivors of the Warsaw Ghetto Uprising, known as the "Ghetto Fighters," went on to found Kibbutz Lohamey ha-Geta'ot (literally: "Ghetto Fighters' Kibbutz"), which is located north of Acre. The founding members of the kibbutz include Yitzhak Zuckerman, ZOB deputy commander, and his wife Zivia Lubetkin, who also commanded a fighting unit. In 1984, the members of the kibbutz published Dapei Edut ("Testimonies of Survival"), four volumes of personal testimonies from 96 kibbutz members. The settlement also features a museum and archives dedicated to remembering the Holocaust. [READ THE REST OF THIS ARTICLE]

Surgical suture is a medical device used to hold body tissues together after an injury or surgery. It generally consists of a needle with an attached length of thread. A number of different shapes, sizes, and thread materials have been developed over its millennia of history. The earliest reports of surgical suture date back to 3000 BC in ancient Egypt, and the oldest known suture is in a mummy from 1100 BC. The first detailed description of a wound suture and the suture materials used in it is by the Indian sage and physician Sushruta, written in 500 BCE. The Greek "father of medicine" Hippocrates described rudimentary suture techniques, as did the later Roman Aulus Cornelius Celsus. Traumatic needles are needles with holes or eyes which are supplied to the hospital separate from their suture thread. The suture must be threaded on site, as is done when sewing at home. Atraumatic needles with sutures comprise an eyeless needle attached to a specific length of suture thread. The suture manufacturer swages the suture thread to the eyeless atraumatic needle at the factory. There are several advantages to having the needle pre-mounted on the suture. The doctor or the nurse or odp does not have to spend time threading the suture on the needle. More importantly, the suture end of a swaged needle is smaller than the needle body. In traumatic needles with eyes, the thread comes out of the needle's hole on both sides. When passing through the tissues, this type of suture rips the tissue to a certain extent, thus the name traumatic. Nearly all modern sutures feature swaged atraumatic needles. Suture thread is made from numerous materials. The original sutures were made from biological materials, such as catgut suture and silk. Most modern sutures are synthetic, including the absorbables polyglycolic acid, polylactic acid, and polydioxanone as well as the non-absorbables nylon and polypropylene. Newer still is the idea of coating sutures with antimicrobial substances to reduce the chances of wound infection. Sutures come in very specific sizes and may be either absorbable (naturally biodegradable in the body) or non-absorbable. Sutures must be strong enough to hold tissue securely but flexible enough to be knotted. They must be hypoallergenic and avoid the "wick effect" that would allow fluids and thus infection to penetrate the body along the suture tract. [READ THE REST OF THIS ARTICLE]

The Salton Sea is a saline, endorheic rift lake located directly on the San Andreas Fault predominantly in California's Imperial Valley. The lake occupies the lowest elevations of the Salton Sink in the Colorado Desert of Imperial and Riverside Counties in Southern California. Like Death Valley, it is below sea level; currently, its surface is 226 ft (69 m) below sea level. The deepest area of the sea is 5 ft (1.5 m) higher than the lowest point of Death Valley. The sea is fed by the New, Whitewater, and Alamo rivers, as well as agricultural runoff drainage systems and creeks. The creation of the Salton Sea of today started in 1905, when heavy rainfall and snowmelt caused the Colorado River to swell, overrunning a set of headgates for the Alamo Canal. The resulting flood poured down the canal and breached an Imperial Valley dike, eroding two watercourses, the New River in the west, and the Alamo River in the east, each about 60 miles (97 km) long. Over a period of approximately two years these two newly created rivers sporadically carried the entire volume of the Colorado River into the Salton Sink. The Southern Pacific Railroad attempted to stop the flooding by dumping earth into the canal's headgates area, but the effort was not fast enough, and as the river eroded deeper and deeper into the dry desert sand of the Imperial Valley, a massive waterfall was created that started to cut rapidly upstream along the path of the Alamo Canal that now was occupied by the Colorado. This waterfall was initially 15 feet (4.6 m) high but grew to a height of 80 feet (24 m) before the flow through the breach was finally stopped. It was originally feared that the waterfall would recede upstream to the true main path of the Colorado, attaining a height of up to 100 to 300 feet (30 to 91 m), from where it would be practically impossible to fix the problem. As the basin filled, the town of Salton, a Southern Pacific Railroad siding and Torres-Martinez Indian land were submerged. The sudden influx of water and the lack of any drainage from the basin resulted in the formation of the Salton Sea. The continuing intermittent flooding of the Imperial Valley from the Colorado River led to the idea of the need for a dam on the Colorado River for flood control. Eventually, the federal government sponsored survey parties in 1922 that explored the Colorado River for a dam site, ultimately leading to the construction of Hoover Dam in Black Canyon, which was constructed beginning in 1929 and completed in 1935. The dam effectively put an end to the flooding episodes in the Imperial Valley. The lake's salinity, about 44 g/L, is greater than the waters of the Pacific Ocean (35 g/L), but less than that of the Great Salt Lake; the concentration is increasing by about 1 percent annually. [READ THE REST OF THIS ARTICLE]

The Mars Science Laboratory (MSL) is a National Aeronautics and Space Administration (NASA) mission with the aim to land and operate a rover named Curiosity on the surface of Mars. Currently in transit to Mars, it was launched November 26, 2011, at 10:02 EST and is scheduled to land on Mars at Gale Crater on August 6, 2012 (about 10pm in the evening of August 5 PDT, the time used by the mission controllers in Pasadena, California). If MSL arrives at Mars, it will attempt a more precise landing than attempted previously and then help assess Mars's habitability. A primary mission objective is to determine whether Mars is or has ever been an environment able to support life, though it will not look for any specific type of life. Rather, it is intended to chemically analyze samples in various ways, including scooping up soil, drill rocks, and with a laser and sensor system. Curiosity rover is five times larger than Spirit or Opportunity Mars Exploration Rovers and carries more than ten times the mass of scientific instruments than that design. MSL was launched by an Atlas V 541 rocket and after its journey to Mars and then landing, is designed to explore for at least 687 Earth days (1 Martian year) over a range of 5-20 km (3-12 miles). Mars Science Laboratory mission is part of NASA's Mars Exploration Program, a long-term effort of robotic exploration of Mars, and the project is managed by the Jet Propulsion Laboratory of California Institute of Technology for NASA. Doug McCuistion of NASA's Planetary Science Division is the Director of the Mars Exploration Program. The total cost of the MSL project is about US$2.5 billion. MSL launched on an Atlas V rocket from Cape Canaveral on November 26, 2011. On January 11, 2012, the spacecraft successfully refined its trajectory with a three-hour series of thruster-engine firings, advancing the rover's landing time by about 14 hours. When MSL was launched, the program's director was Doug McCuistion of NASA's Planetary Science Division. Curiosity successfully landed in the Gale Crater at 05:17:57.3 UTC on August 6, 2012, and transmitted Hazcam images confirming orientation. Due to the Mars-Earth distance at the time of landing and the limited speed of radio signals, the landing was not registered on Earth for another 14 minutes. The Mars Reconnaissance Orbiter sent a photograph of Curiosity descending under its parachute, taken by its HiRISE camera, during the landing procedure. [READ THE REST OF THIS ARTICLE] is not affiliated with or endorsed by wikipedia. wikipedia and the wikipedia globe are registered trademarks of
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