The Official "RIU History" Thread

BarnBuster

Virtually Unknown Member
June 18, 1812 : War of 1812 begins

The day after the Senate followed the House of Representatives in voting to declare war against Great Britain, President James Madison signs the declaration into law–and the War of 1812 begins. The American war declaration, opposed by a sizable minority in Congress, had been called in response to the British economic blockade of France, the induction of American seaman into the British Royal Navy against their will, and the British support of hostile Indian tribes along the Great Lakes frontier. A faction of Congress known as the “War Hawks” had been advocating war with Britain for several years and had not hidden their hopes that a U.S. invasion of Canada might result in significant territorial land gains for the United States.

In the months after President Madison proclaimed the state of war to be in effect, American forces launched a three-point invasion of Canada, all of which were decisively unsuccessful. In 1814, with Napoleon Bonaparte’s French Empire collapsing, the British were able to allocate more military resources to the American war, and Washington, D.C., fell to the British in August. In Washington, British troops burned the White House, the Capitol, and other buildings in retaliation for the earlier burning of government buildings in Canada by U.S. soldiers.

In September, the tide of the war turned when Thomas Macdonough’s American naval force won a decisive victory at the Battle of Plattsburg Bay on Lake Champlain. The invading British army was forced to retreat back into Canada. The American victory on Lake Champlain led to the conclusion of U.S.-British peace negotiations in Belgium, and on December 24, 1814, the Treaty of Ghent was signed, formally ending the War of 1812. By the terms of the agreement, all conquered territory was to be returned, and a commission would be established to settle the boundary of the United States and Canada.

British forces assailing the Gulf Coast were not informed of the treaty in time, and on January 8, 1815, the U.S. forces under Andrew Jackson achieved the greatest American victory of the war at the Battle of New Orleans. The American public heard of Jackson’s victory and the Treaty of Ghent at approximately the same time, fostering a greater sentiment of self-confidence and shared identity throughout the young republic.
 

Antidisestablishmentarian

Well-Known Member
The U.S. Exploring Expedition-

When the U.S. Ex. Ex. returned in 1842, it immediately overwhelmed America's meager scientific resources. The number of ethnographic objects alone was staggering: 4,000 pieces, a third more than the total number of artifacts collected during all three of Cook's voyages. Indeed, the ethnographic collection of the U.S. Ex. Ex.-including war clubs from Fiji, feathered baskets from California, exquisitely carved rattles from Oregon, fishhooks from Samoa, and flax baskets from New Zealand-is now thought to be, according to Smithsonian anthropologist Adrienne Kaeppler, the largest ever made by a single sailing expedition.


Even larger than the ethnographic collection were the number of pressed plants accumulated by the botanist William Rich, the horticulturalist William Brackenridge, and the naturalist Charles Pickering: 50,000 specimens of 10,000 species. There were also more than a thousand living plants, plus seeds for an additional 648 species. Titian Peale had brought back a total of 2,150 birds, their skins ready to be mounted for display, along with 134 mammals and 588 species of fish. The geologist James Dana, who had also taken over the department of the conchologist Joseph Couthouy, had collected 300 fossil species, 400 species of coral, and 1,000 species of crustacea, along with what was described as an "immense" number of duplicates. There were 208 "spirit jars" of insects and zoological specimens, along with 895 envelopes containing 5,100 larger specimens.


In addition to all the stuff brought back by the Expedition, there was an equally awe-inspiring amount of data. The Expedition's linguist Horatio Hale had amassed notebooks of observations that were unprecedented in their scope and thoroughness, while the naturalist Charles Pickering's voluminous and wide-ranging journal stood as a monument to the incredible diversity of the peoples and places visited over the last four years. Then there were the charts-a total of 241 of them, outdoing the achievements of any previous surveying expedition. Laid down in these charts, with a precision rarely before seen, were 280 Pacific islands, including the first complete chart of the Fiji group; 800 miles of the Oregon coast; a 100-mile stretch of the Columbia River; the overland route from Oregon to San Francisco; and 1,500 miles of the Antarctic coast. But Wilkes and his officers had also assembled mountains of meteorological, astronomical, magnetic, and oceanographic information. "The results of the expedition were larger and more complex than anyone could have imagined," writes William Goetzman, the foremost historian of American exploration, "and they outran the intellectual resources of the country."

I have a book on this expedition(Sea of Glory, by Nathaniel Philbrick). It is extraordinarily fascinating to me.
 

BarnBuster

Virtually Unknown Member
The Berlin Airlift

On this day in 1948, U.S. and British pilots begin delivering food and supplies by airplane to Berlin after the city is isolated by a Soviet Union blockade.

When World War II ended in 1945, defeated Germany was divided into Soviet, American, British and French zones of occupation. The city of Berlin, though located within the Soviet zone of occupation, was also split into four sectors, with the Allies taking the western part of the city and the Soviets the eastern. In June 1948, Josef Stalin’s government attempted to consolidate control of the city by cutting off all land and sea routes to West Berlin in order to pressure the Allies to evacuate. As a result, beginning on June 24 the western section of Berlin and its 2 million people were deprived of food, heating fuel and other crucial supplies.

Though some in U.S. President Harry S. Truman’s administration called for a direct military response to this aggressive Soviet move, Truman worried such a response would trigger another world war. Instead, he authorized a massive airlift operation under the control of General Lucius D. Clay, the American-appointed military governor of Germany. The first planes took off from England and western Germany on June 26, loaded with food, clothing, water, medicine and fuel.

By July 15, an average of 2,500 tons of supplies was being flown into the city every day. The massive scale of the airlift made it a huge logistical challenge and at times a great risk. With planes landing at Tempelhof Airport every four minutes, round the clock, pilots were being asked to fly two or more round-trip flights every day, in World War II planes that were sometimes in need of repair.

The Soviets lifted the blockade in May 1949, having earned the scorn of the international community for subjecting innocent men, women and children to hardship and starvation. The airlift–called die Luftbrucke or “the air bridge” in German–continued until September 1949, for a total delivery of more than 1.5 million tons of supplies and a total cost of over $224 million. When it ended, the eastern section of Berlin was absorbed into Soviet East Germany, while West Berlin remained a separate territory with its own government and close ties to West Germany. The Berlin Wall, built in 1961, formed a dividing line between East and West Berlin. Its destruction in 1989 presaged the 1991 collapse of the Soviet Union and marked the end of an era and the reemergence of Berlin as the capital of a new, unified German nation.
 

Padawanbater2

Well-Known Member
HMS Barham

http://i.imgur.com/qcn7NxN.gifv

"On 25 November 1941 at 4.25pm, while steaming to cover an attack on Italian convoys with the battleships Queen Elizabeth, Valiant and an escort of eight destroyers, Barham was hit by three torpedoes from the German submarine U-331, commanded by Lieutenant Hans-Dietrich von Tiesenhausen. Leading Telegraphist A.R. Bacon remained at his station following the first attack to alert accompanying ships of the presence of U-331, which greatly aided the search and rescue. The torpedoes were fired from a range of only 750 yards providing no time for evasive action, and struck so closely together as to throw up a single massive water column. As the battleship rolled over to port, her magazines exploded and she quickly sank with the loss of more than two-thirds of the crew. Out of a crew of approximately 1,184 officers and men, 841 were killed. The survivors were rescued by the other British ships."
 

BarnBuster

Virtually Unknown Member
The Torpedo
In naval warfare, a self-propelled submarine projectile loaded with explosives, used for the destruction of enemy ships. Although there were attempts at subsurface warfare in the 16th and 17th cent., the modern torpedo had its origin in the efforts of David Bushnell, who, during the American Revolution, experimented with a submarine for attaching underwater explosives to British ships.

His attempts failed, but later Robert Fulton experimented with similar ideas. In the 19th cent. Torpedoes developed at first as stationary mines placed in the water; these were used extensively by the Russians in the Crimean War and by the Confederacy in the U.S. Civil War.

The first truly self-propelled torpedo was designed and built at Fiume in 1866 by Robert Whitehead, an Englishman. It was driven by a small reciprocating engine run by compressed air; a hydrostatic valve and pendulum balance, connected to a horizontal rudder, controlled the depth at which it ran. Directional accuracy was achieved in 1885 when John Adams Howell developed the gyroscope to control the vertical rudder. Torpedoes were used by Japan in the Russo-Japanese War and were widely employed in World War I.

Torpedo development during the World War I was minimal. An electric torpedo design was scrapped before the program ever got off the ground. The Whitehead and Bliss-Leavitt Mk 6 torpedoes were all removed from service in 1922. The remaining U.S. Navy torpedo arsenal consisted of only the Bliss-Leavitt torpedoes Mk 7, Mk 8, Mk 9, and Mk 10. The Mk 7 torpedo was the first steam-driven torpedo for the U.S. Navy. The Mk 7 had a range of 6000 yards and a speed upward of 35 knots. It was 18 inches in diameter and could be fired from both destroyers and submarines. The Mk 8, Mk 9, and Mk 10 had a diameter of 21 inches. The Mk 8 was a destroyer-fired weapon. The Mk 9 and 10 were submarine-fired weapons. In the early 1920ís, the U.S. discontinued its contractual agreement with the Bliss-Leavitt Corporation citing a patent rights dispute over the Mk 9 torpedo. The Navy then made the Newport R.I. weapons station the sole point for United States development, design, and research of underwater warfare.

The post World War I/pre World War II era defined the modern torpedo. The first American airdrop torpedo test was conducted in 1920. Three weapons stand out from that era. The Mk 13, the aircraft launched torpedo, was a 13 Ω feet long torpedo with a range of 7000 yards and a speed of 30 knots. The Mk 14 torpedoes deployed from submarines. The Mk 14 is responsible for sinking over four million tons of Japanese shipping during World War II.

The torpedoes used in World War II were usually 20 to 24 ft (6.1–7.3 m) long, carrying up to 600 lb (272 kg) of explosives at a speed of 50 knots for more than 10,000 yd (9,144 m). The type of torpedo used in World War II has been largely superseded by the homing torpedo. In contrast to the older type, which traveled in a straight line on a preset course, the homing torpedo automatically changes its course to seek out its target. Most homing torpedoes are activated by sounds coming from the target (e.g., propeller or machinery noises), and they follow the sounds until making contact with the target.

Around 1941, upon successful seizure of the U-570 by the British, the United States began designing an electric torpedo to copy the Germans latest technological advance The Mk 18 torpedo was available for fleet use within a year of the capture of its German predecessor.

The electric torpedo had a battery compartment instead of an air flask. An electric motor replaced the engine, but pneumatic controls remained because of their tested reliability. The electric torpedo had two distinct advantages: the weapon was wake-less. It did not warn of an attack or a location from which it was launched and it required less manufacturing effort. The World War II electric weapons used a lead acid battery that required maintenance often. This proved to be a problem for the submarine fleet; hydrogen would expel during the maintenance process or by self-discharge. Purging the torpedo room on a regular basis was required.

An idea to develop a weapon that attacks what it hears originated during World War II. The theory is that the weapon would home in on an underwater noise such as the propeller of a destroyer. The weapon would then arm and attack the source of the noise. This concept of a homing torpedo had its drawbacks. A submarine sitting on the bottom of a harbor or a ship moving slowly would be quiet, making it difficult for a homing weapon to find its target. The Office of Scientific Research and Development and its subsidiary the National Defense Research Committee had complete control over this project. They developed the Mine Mk 24.The term mine was to mislead enemy intelligence. The Mk 24, nicknamed Fido, was a small, stubby torpedo with an electric motor. A conscious decision to design a weapon that was not extremely fast (10-12 knots) was made considering its prey, a submerged enemy submarine, would only travel at a speed of 3-5 knots. Fido was airdropped with a 10-15 minute run time on a 48-volt battery. The Mk 24 was responsible for sinking approximately 15 percent of enemy submarines sunk by air escorts from 1943 through the end of the war.

The Mk 27 torpedo, nicknamed Cutie, was developed late in the war. The Cutie was a modified Mk 24 that was launched from a submarine. The Mk 27 was the first torpedo to leave the tube under its own power. It swam out; other torpedoes were fired by a charge of compressed air. The Mk 27 proved useful in the Pacific by hunting down sampans that were tracking Allied submarines near the coastlines.

GE (General Electric) was in development of an active homing torpedo design. This torpedo would be released to run at a certain depth, speed, and course. The weapon itself would go active and search for its own target using echo- ranging, the sending and receiving of sound waves through the water. The enemy must then maneuver to avoid it because active homing torpedoes, unlike the passive torpedoes were not easily distracted by counter-measures or ocean noise. The Mk 32 active homing torpedo passed the test phase in 1944 but the program never saw production until brought back in 1951 as the Mk 32 Mod 2 for ASW (Anti-Submarine Warfare) development
 

BarnBuster

Virtually Unknown Member
Battle of Gettysburg
July 1 - 3, 1863
Adams County, Pennsylvania

After his astounding victory at the Battle of Chancellorsville, Virginia, in May 1863, Robert E. Lee led his Army of Northern Virginia in its second invasion of the North—the Gettysburg Campaign. With his army in high spirits, Lee intended to collect supplies in the abundant Pennsylvania farmland and take the fighting away from war-ravaged Virginia. He wanted to threaten Northern cities, weaken the North's appetite for war and, especially, win a major battle on Northern soil and strengthen the peace movement in the North. Prodded by President Abraham Lincoln, Maj. Gen. Joseph Hooker moved his Union Army of the Potomac in pursuit, but was relieved of command just three days before the battle. Hooker's successor, Maj. Gen. George Gordon Meade moved northward, keeping his army between Lee and Washington, D.C. When Lee learned that Meade was in Pennsylvania, Lee concentrated his army around Gettysburg.

Elements of the two armies collided west and north of the town on July 1, 1863. Union cavalry under Brig. Gen. John Buford slowed the Confederate advance until Union infantry, the Union 1st and 11th Corps, arrived. More Confederate reinforcements under generals A.P. Hill and Richard Ewell reached the scene, however, and 30,000 Confederates ultimately defeated 20,000 Yankees, who fell back through Gettysburg to the hills south of town--Cemetery Hill and Culp's Hill.

On the second day of battle, the Union defended a fishhook-shaped range of hills and ridges south of Gettysburg with around 90,000 soldiers. Confederates essentially wrapped around the Union position with 70,000 soldiers. On the afternoon of July 2, Lee launched a heavy assault on the Union left flank, and fierce fighting raged at Devil's Den, Little Round Top, the Wheatfield, the Peach Orchard and Cemetery Ridge. On the Union right, demonstrations escalated into full-scale assaults on Culp's Hill and East Cemetery Hill. Although the Confederates gained ground, the Union defenders still held strong positions by the end of the day.

On July 3, fighting resumed on Culp's Hill, and cavalry battles raged to the east and south, but the main event was a dramatic infantry assault by 12,000 Confederates against the center of the Union line on Cemetery Ridge--Pickett's Charge. The charge was repulsed by Union rifle and artillery fire, at great losses to the Confederate army. Lee led his army on a torturous retreat back to Virginia. As many as 51,000 soldiers from both armies were killed, wounded, captured or missing in the three-day battle. Four months after the battle, President Lincoln used the dedication ceremony for Gettysburg's Soldiers National Cemetery to honor the fallen Union soldiers and redefine the purpose of the war in his historic Gettysburg Address.
 

BarnBuster

Virtually Unknown Member
On this day in 1945, at 5:29:45 a.m., the Manhattan Project comes to an explosive end as the first atom bomb is successfully tested in Alamogordo, New Mexico.

Plans for the creation of a uranium bomb by the Allies were established as early as 1939, when Italian emigre physicist Enrico Fermi met with U.S. Navy department officials at Columbia University to discuss the use of fissionable materials for military purposes. That same year, Albert Einstein wrote to President Franklin Roosevelt supporting the theory that an uncontrolled nuclear chain reaction had great potential as a basis for a weapon of mass destruction. In February 1940, the federal government granted a total of $6,000 for research. But in early 1942, with the United States now at war with the Axis powers, and fear mounting that Germany was working on its own uranium bomb, the War Department took a more active interest, and limits on resources for the project were removed.

Brigadier-General Leslie R. Groves, himself an engineer, was now in complete charge of a project to assemble the greatest minds in science and discover how to harness the power of the atom as a means of bringing the war to a decisive end. The Manhattan Project (so-called because of where the research began) would wind its way through many locations during the early period of theoretical exploration, most importantly, the University of Chicago, where Enrico Fermi successfully set off the first fission chain reaction. But the Project took final form in the desert of New Mexico, where, in 1943, Robert J. Oppenheimer began directing Project Y at a laboratory at Los Alamos, along with such minds as Hans Bethe, Edward Teller, and Fermi. Here theory and practice came together, as the problems of achieving critical mass-a nuclear explosion-and the construction of a deliverable bomb were worked out.

Finally, on the morning of July 16,in the New Mexico desert120 miles south of Santa Fe, the first atomic bomb was detonated. The scientists and a few dignitaries had removed themselves 10,000 yards away to observe as the first mushroom cloud of searing light stretched 40,000 feet into the air and generated the destructive power of 15,000 to 20,000 tons of TNT. The tower on which the bomb sat when detonated was vaporized.

The question now became-on whom was the bomb to be dropped? Germany was the original target, but the Germans had already surrendered. The only belligerent remaining was Japan.

A footnote: The original $6,000 budget for the Manhattan Project finally ballooned to a total cost of $2 billion
 

BarnBuster

Virtually Unknown Member
The Longbow

THE LONGBOW, defined as one over 4ft. in length, was probably first used by the Germans or Scandinavians in about 500AD. In about 1000AD it was being used in Wales but it is not known if it was developed there independently or if it was borrowed from other parts of Europe. Around 1300, during a skirmish with the Welsh, an English knight received a wound from an arrow that had penetrated his chain mail, passed through his thigh, the chain mail on the other side of his leg, a wooden saddle and wounded the horse. The English decided this was a weapon with real potential as lowly infantry could handle a weapon that could defeat the finest armor. Early tests showed that the longbow could fire an arrow with such force that it could penetrate a four inch oak door with a handspan of the arrow’s shaft exposed on the other side.

The first time it played a major role was at the Battle of Falkirk in 1298 when Edward I defeated William Wallace, largely due to a devastating hail of arrows from Welsh archers against the Scots.

English archers proved decisive against the French during the 100 Years War (1337-1453) at the battles of Crecy, Poitiers and Agincourt. Each of these major victories were won against far larger French armies.

The best longbows were made of yew. The staves were cut in winter when no sap was running, from the junction of the inner heartwood and the outer sapwood. The staves were seasoned and worked on gradually over a period of three to four years. Today only six longbows survive, none from the "golden age" and sources do not agree on the dimensions. Most give the length as about 70in. with a drawing pull of 75-100lbs. The arrows were between 27-36in. long. A trained archer could shoot 12 arrows a minute, but some sources say that the most skilled archers could fire twice this number. The arrow could wound at 250 yards, kill at 100 yards and penetrate armor at 60 yards.



At the battle of Agincourt in 1415, 1,000 arrows were fired every second. After the battle, observers wrote that the white feathers from the flights were so thick on the ground, it looked like snow.

The surviving examples of longbows look unfinished and it is probable that most of the bows had this appearance: the junction of the inner and outer woods would rarely be straight but this was not important. Interestingly English yew was not considered suitable to make bows and the staves were imported, largely from Italy and Spain. To ensure a regular supply, each ton of certain imports, including wine, had to be accompanied by 10 yew staves.

The French did not at first credit the major victories of the English to the longbow but to the other tactics, especially the use of the English knights fighting on foot. The French did start to train some infantry in the use of the longbow in the late 1300s but the king was most concerned about peasants having such powerful weapons and the idea was dropped.

The training adopted by the English was rigorous. All sports were banned on Sundays and men between 12 and 65 were expected to practice their archery. Every man with an income of over £2 a year was required to own a bow.

The longbow was the most powerful weapon in Europe from about 1300 to 1588. In that year, the Spanish Armada, aware of the English skill with the longbow, armed their troops with bows. The English however experimented by having 10,000 harquebusiers (early firearms) which proved superior. However, the longbow still had its supporters. After the Battle of Waterloo in 1815, a senior British officer seriously suggested the readoption of the longbow by the infantry
 

Padawanbater2

Well-Known Member
70 years ago today..



Hiroshima (left), Nagasaki (right)

"The United States dropped atomic bombs on the Japanese cities of Hiroshima and Nagasaki in August 1945, during the final stage of the Second World War. The two bombings, which killed at least 129,000 people, remain the only use of nuclear weapons for warfare in history.

As the war entered its sixth and final year, the Allies had begun to prepare for what was anticipated to be a very costly invasion of the Japanese mainland. This was preceded by an immensely destructive firebombing campaign that obliterated many Japanese cities. The war in Europe had concluded when Nazi Germany signed its instrument of surrender on May 8, 1945, but with the Japanese refusal to accept the Allies' demands for unconditional surrender, the Pacific War continued. Together with the United Kingdom and China, the United States called for the unconditional surrender of the Japanese armed forces in the Potsdam Declaration on July 26, 1945; this was buttressed with the threat of "prompt and utter destruction".
In July 1945, the Allied Manhattan Project successfully detonated an atomic device in the New Mexico desert and by August had produced atomic weapons based on two alternate designs. The 509th Composite Group of the U.S. Army Air Forces was equipped with the specialized Silverplate version of the Boeing B-29 Superfortress, that could deliver them from Tinian in the Mariana Islands.

A uranium gun-type atomic bomb (Little Boy) was dropped on Hiroshima on August 6, 1945, followed by a plutonium implosion-type bomb (Fat Man) on the city of Nagasaki on August 9. Little Boy exploded 2,000 feet above Hiroshima in a blast equal to 12-15,000 tons of TNT, destroying five square miles of the city. Within the first two to four months of the bombings, the acute effects of the atomic bombings killed 90,000–166,000 people in Hiroshima and 39,000–80,000 in Nagasaki; roughly half of the deaths in each city occurred on the first day. During the following months, large numbers died from the effect of burns, radiation sickness, and other injuries, compounded by illness and malnutrition. In both cities, most of the dead were civilians, although Hiroshima had a sizable military garrison.

On August 15, just days after the bombing of Nagasaki and the Soviet Union's declaration of war, Japan announced its surrender to the Allies. On September 2, it signed the instrument of surrender, effectively ending World War II. The bombings' role in Japan's surrender and their ethical justification are still debated."

https://en.wikipedia.org/wiki/Atomic_bombings_of_Hiroshima_and_Nagasaki
 

BarnBuster

Virtually Unknown Member
LOL...yeah, Pad go start your own thread....oh...wait....

History Of LOL

Before it existed online, "LOL" was common in letter-writing. The pre-Internet version of the acronym meant “lots of love” or “lots of luck."

The online use of LOL might date back as far as the early '80s in Calgary, Canada, when then-student Wayne Pearson coined the term with friends on Viewline, a bulletin board system that was a sort of rudimentary chatroom. Or so he claims.

“I always emphasized (and still do) that it was meant to be used *only* if you truly Laughed Out Loud,” Pearson wrote in a post crowning himself the inventor of LOL.

Lexicographer and netspeak historian Ben Zimmer told PCWorld that the first documented mention of LOL comes from a May 1989 newsletter called FidoNews -- still distributed by the computer network FidoNet today -- which listed it as a commonly used Web acronym.
 
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BarnBuster

Virtually Unknown Member
November 08, 1895 : German scientist discovers X-rays Introduction
On this day in 1895, physicist Wilhelm Conrad Rontgen (1845-1923) becomes the first person to observe X-rays, a significant scientific advancement that would ultimately benefit a variety of fields, most of all medicine, by making the invisible visible. Rontgen’s discovery occurred accidentally in his Wurzburg, Germany, lab, where he was testing whether cathode rays could pass through glass when he noticed a glow coming from a nearby chemically coated screen. He dubbed the rays that caused this glow X-rays because of their unknown nature.

X-rays are electromagnetic energy waves that act similarly to light rays, but at wavelengths approximately 1,000 times shorter than those of light. Rontgen holed up in his lab and conducted a series of experiments to better understand his discovery. He learned that X-rays penetrate human flesh but not higher-density substances such as bone or lead and that they can be photographed.

Rontgen’s discovery was labeled a medical miracle and X-rays soon became an important diagnostic tool in medicine, allowing doctors to see inside the human body for the first time without surgery. In 1897, X-rays were first used on a military battlefield, during the Balkan War, to find bullets and broken bones inside patients.

Scientists were quick to realize the benefits of X-rays, but slower to comprehend the harmful effects of radiation. Initially, it was believed X-rays passed through flesh as harmlessly as light. However, within several years, researchers began to report cases of burns and skin damage after exposure to X-rays, and in 1904, Thomas Edison’s assistant, Clarence Dally, who had worked extensively with X-rays, died of skin cancer. Dally’s death caused some scientists to begin taking the risks of radiation more seriously, but they still weren’t fully understood. During the 1930s, 40s and 50s, in fact, many American shoe stores featured shoe-fitting fluoroscopes that used to X-rays to enable customers to see the bones in their feet; it wasn’t until the 1950s that this practice was determined to be risky business. Wilhelm Rontgen received numerous accolades for his work, including the first Nobel Prize in physics in 1901, yet he remained modest and never tried to patent his discovery. Today, X-ray technology is widely used in medicine, material analysis and devices such as airport security scanners.
 

BarnBuster

Virtually Unknown Member
The Mouse

Today, the mouse is an essential input device for all modern computers but it wasn't so long ago that computers had no mouse and no graphical user interface. Data was entered by typing commands on a keyboard.

The mouse was invented by Douglas Engelbart in 1964 and consisted of a wooden shell, circuit board and two metal wheels that came into contact with the surface it was being used on.

It was 8 years later in 1972 that Bill English developed the design further by inventing what is known as the "Ball Mouse" that we know today. The ball replaced the wheels and was capable of monitoring movement in any diection. The ball came into contact with two rollers that in turn spun wheels with graduations on them that could be turned into electrical pulses representing direction and speed.

At the time Bill English was working for Xerox Parc (Palo Alto Research Centre) the research and development centre set-up by Xerox to 'design the future of computing'. The mouse became part of the ground breaking Xerox Alto computer system which was the first minicomputer system to offer a graphical user interface.

It would be another 8 years before the mouse would be developed any further. An optical mouse was developed in around 1980, eliminating the ball which often became dirty from rolling round the desktop, negatively affecting its operation. In 1988, US patent no. 4751505 was issued for an optical mouse invented by Lisa M. Williams and Robert S. Cherry, which was to be sold commercially with Xerox products, such as the Xerox STAR. This mouse was produced for $17 and sold for $35. Despite this, it wasn't until around 1998 that optical mice became a commercially viable alternative to the ball mouse and infiltrated the mass consumer market., thanks to the increase in microcontroller processing power and the reduction in component costs.

Today the optical mouse has completely replaced the ball mouse, being supplied as standard with all new computers.
 

BarnBuster

Virtually Unknown Member


A History of Handcuffs

by TIHK Team
It’s impossible to trace back through history to the very first appearance of handcuff-like restraints. After all, as long as humankind has been around there has been the necessity to restrain some less-than-savory characters. Before metal handcuffs, of course, people used rope and animal hide and presumably any other strong material that would get the job done.

The first recorded mention of handcuffs appears in Virgil’s telling of the myth of Proteus, an ancient Greek shape-shifting god. According to the myth, Proteus possessed the gift of prophecy, and men desired to learn from him. But any time a human would approach and request that Proteus share his knowledge, he would shift his shape and escape. Finally Aristaeus, son of Apollo, particularly motivated by the desire to learn why his bees were dying of disease, learned (and utilized) the secret to preventing Proteus from shape shifting and escaping: handcuffs.

The first metal handcuffs as we may recognize them today came into existence with the Bronze and Iron ages, and were “one size fits all” for centuries. This lack of adjustability according to wrist size posed a serious problem: if a suspect’s wrists were too large then the cuffs were painful or simply wouldn’t close; too small and the detainee could slip right out of them. Finally, in 1862, W.V. Adams patented the first adjustable ratchet design. Orson C. Phelps followed a few years later with a patent that improved upon the original ratchet design, and beginning in 1865, John Tower (of the once industry-dominating Tower Handcuffs) used Adams’ and Phelps’ patents to manufacture what were until World War II the industry standard.

There were still problems to overcome, particularly the ease with which a suspect could shim or otherwise tamper with the lock. In 1879, Tower Handcuffs introduced the first double-locking cuff design, which effectively solved this problem by preventing the handcuffs from being ratcheted tighter, a common tactic used when shimming and otherwise attempting escape from handcuffs.

Handcuffs came closer still to the standard that we see today in 1912, when George Carney invented the first swing cuff. This design was revolutionary, as it made it possible for a law enforcement officer to quickly secure the cuffs with just one hand, greatly improving security and ease of use. The Peerless Handcuff Company, still the largest manufacturer of handcuffs today, began selling these swing cuffs, and with the exception of brand variances and small changes, the design of today’s industry standard has remained much the same. TIHK works on most Peerless-style cuffs, and has been reported to work on many other brands as well!
 

BarnBuster

Virtually Unknown Member
Weapons of War - Poison Gas

Although it is popularly believed that the German army was the first to use gas it was in fact initially deployed by the French. In the first month of the war, August 1914, they fired tear-gas grenades (xylyl bromide) against the Germans. Nevertheless the German army was the first to give serious study to the development of chemical weapons and the first to use it on a large scale.

In the capture of Neuve Chapelle in October 1914 the German army fired shells at the French which contained a chemical irritant whose result was to induce a violent fit of sneezing. Three months later, on 31 January 1915, tear gas was employed by the Germans for the first time on the Eastern Front.

Fired in liquid form contained in 15 cm howitzer shells against the Russians at Bolimov, the new experiment proved unsuccessful, with the tear gas liquid failing to vaporise in the freezing temperatures prevalent at Bolimov.

Not giving up, the Germans tried again with an improved tear gas concoction at Nieuport against the French in March 1915.

The debut of the first poison gas however - in this instance, chlorine - came on 22 April 1915, at the start of the Second Battle of Ypres.

German gas canistersAt this stage of the war the famed Ypres Salient, held by the British, Canadians and French, ran for some 10 miles and bulged into German occupied territory for five miles. A combination of French territorials and Algerian troops held the line to the left, with the British and Canadians tending the centre and line to their right.

During the morning of 22 April the Germans poured a heavy bombardment around Ypres, but the line fell silent as the afternoon grew. Towards evening, at around 5 pm, the bombardment began afresh - except that sentries posted among the French and Algerian troops noticed a curious yellow-green cloud drifting slowly towards their line.

Puzzled but suspicious the French suspected that the cloud masked an advance by German infantry and ordered their men to 'stand to' - that is, to mount the trench fire step in readiness for probable attack.

The cloud did not mask an infantry attack however; at least, not yet. It signalled in fact the first use of chlorine gas on the battlefield. Ironically its use ought not to have been a surprise to the Allied troops, for captured German soldiers had revealed the imminent use of gas on the Western Front. Their warnings were not passed on however.

The effects of chlorine gas were severe. Within seconds of inhaling its vapour it destroyed the victim's respiratory organs, bringing on choking attacks

Men on horseback with gas masksPanic-stricken the French and Algerian troops fled in disorder, creating a four-mile gap in the Allied line. Had the Germans been prepared for this eventuality they could potentially have effected a decisive breakthrough. However the results of their experiment caused as much surprise to the German high command as.

German infantry did advance into the gap, but nervously and with hesitance. Outflanking the Canadian and British troops to their right, the ensuing fighting was difficult. Although the Germans succeeded in seizing control of a significant portion of the salient the Allies nevertheless managed to re-form a continuous line, though in parts it remained dangerously weak.

The Germans' use of chlorine gas provoked immediate widespread condemnation, and certainly damaged German relations with the neutral powers, including the U.S. The gas attacks were placed to rapid propaganda use by the British although they planned to respond in kind.

The attack had one clear benefit at home however, for it brought to an end German hesitancy (and disagreement) over its use. The cat was out of the bag; and the use of poison gas continued to escalate for the remainder of the war.

French gun crew wearing gas gearOnce the Allies had recovered from the initial shock of the Germans' practical application of poison gas warfare, a determination existed to exact retaliatory revenge at the earliest opportunity. The British were the first to respond.

Raising Special Gas Companies in the wake of the Germans' April attack (of approximately 1,400 men) operating under the command of Lieutenant-Colonel Charles Foulkes, instructions were given to prepare for a gas attack at Loos in September 1915.

Interestingly the men who comprised the British Special Gas Companies were not allowed to refer to the word "gas" in their operations, such was the stigma attached to its use. Instead they referred to their gas canisters as "accessories"; use of the word "gas" brought with it a threatened punishment.

On the evening of 24 September 1915, therefore, some 400 chlorine gas emplacements were established among the British front line around Loos. The gas was released by turning a cock on each cylinder.

The retaliatory attack began the following morning at 5.20 am. A mixture of smoke and chlorine gas was released intermittently over a period of about 40 minutes before the infantry assault began.

However, releasing gas from cylinders in this manner meant that the user had to be wary of wind conditions. It was desirable that a light wind exist in the direction of the enemy trenches; if the wind were to turn however, the biter would be bit.

The wind shifted and quantities of the smoke and gas were blown back into the British trenches. It has been estimated that more British gas casualties were suffered that morning than German.

Although the numbers are arguable there is little doubt but that the exercise proved a failure: and the resultant infantry attack similarly failed.

Although it was the British who chiefly suffered on 25 September 1915 all three chief armies - Britain, France and Germany - suffered similar self-inflicted gas reversals during 1915. It became apparent that if gas was to be used a more reliable delivery mechanism was called for.

In consequence experiments were undertaken to deliver the gas payload in artillery shells. This provided the additional benefits of increasing the target range as well as the variety of gases released.

Following on the heels of chlorine gas came the use of phosgene. Phosgene as a weapon was more potent than chlorine in that while the latter was potentially deadly it caused the victim to violently cough and choke.

British Livens gas bomb projectorsPhosgene caused much less coughing with the result that more of it was inhaled; it was consequently adopted by both German and Allied armies. Phosgene often had a delayed effect; apparently healthy soldiers were taken down with phosgene gas poisoning up to 48 hours after inhalation.

The so-called "white star" mixture of phosgene and chlorine was commonly used on the Somme: the chlorine content supplied the necessary vapour with which to carry the phosgene.

Remaining consistently ahead in terms of gas warfare development, Germany unveiled an enhanced form of gas weaponry against the Russians at Riga in September 1917: mustard gas (or Yperite) contained in artillery shells.

Mustard gas, an almost odourless chemical, was distinguished by the serious blisters it caused both internally and externally, brought on several hours after exposure. Protection against mustard gas proved more difficult than against either chlorine or phosgene gas.

These of mustard gas - sometimes referred to as Yperite - also proved to have mixed benefits. While inflicting serious injury upon the enemy the chemical remained potent in soil for weeks after release: making capture of infected trenches a dangerous undertaking.

As with chlorine and phosgene gas before it, the Allies promptly reciprocated by copying the Germans' use of mustard gas. By 1918 the use of use of poison gases had become widespread, particularly on the Western Front. If the war had continued into 1919 both sides had planned on inserting poison gases into 30%-50% of manufactured shells.

Treating a mustard gas victimOther types of gases produced by the belligerents included bromine and chloropicrin. The French army occasionally made use of a nerve gas obtained from prussic acid.

However three forms of gas remained the most widely used: chlorine, phosgene and mustard.

The German army ended the war as the heaviest user of gas. It is suggested that German use reached 68,000 tons; the French utilised 36,000 tons and the British 25,000.
 

BarnBuster

Virtually Unknown Member
At the 11th hour on the 11th day of the 11th month of 1918, the Great War ends. At 5 a.m. that morning, Germany, bereft of manpower and supplies and faced with imminent invasion, signed an armistice agreement with the Allies in a railroad car outside Compiégne, France. The First World War left nine million soldiers dead and 21 million wounded, with Germany, Russia, Austria-Hungary, France, and Great Britain each losing nearly a million or more lives. In addition, at least five million civilians died from disease, starvation, or exposure.

On June 28, 1914, in an event that is widely regarded as sparking the outbreak of World War I, Archduke Franz Ferdinand, heir to the Austro-Hungarian empire, was shot to death with his wife by Bosnian Serb Gavrilo Princip in Sarajevo, Bosnia. Ferdinand had been inspecting his uncle’s imperial armed forces in Bosnia and Herzegovina, despite the threat of Serbian nationalists who wanted these Austro-Hungarian possessions to join newly independent Serbia. Austria-Hungary blamed the Serbian government for the attack and hoped to use the incident as justification for settling the problem of Slavic nationalism once and for all. However, as Russia supported Serbia, an Austro-Hungarian declaration of war was delayed until its leaders received assurances from German leader Kaiser Wilhelm II that Germany would support their cause in the event of a Russian intervention.

On July 28, Austria-Hungary declared war on Serbia, and the tenuous peace between Europe’s great powers collapsed. On July 29, Austro-Hungarian forces began to shell the Serbian capital, Belgrade, and Russia, Serbia’s ally, ordered a troop mobilization against Austria-Hungary. France, allied with Russia, began to mobilize on August 1. France and Germany declared war against each other on August 3. After crossing through neutral Luxembourg, the German army invaded Belgium on the night of August 3-4, prompting Great Britain, Belgium’s ally, to declare war against Germany.

For the most part, the people of Europe greeted the outbreak of war with jubilation. Most patriotically assumed that their country would be victorious within months. Of the initial belligerents, Germany was most prepared for the outbreak of hostilities, and its military leaders had formatted a sophisticated military strategy known as the “Schlieffen Plan,” which envisioned the conquest of France through a great arcing offensive through Belgium and into northern France. Russia, slow to mobilize, was to be kept occupied by Austro-Hungarian forces while Germany attacked France.
The Schlieffen Plan was nearly successful, but in early September the French rallied and halted the German advance at the bloody Battle of the Marne near Paris. By the end of 1914, well over a million soldiers of various nationalities had been killed on the battlefields of Europe, and neither for the Allies nor the Central Powers was a final victory in sight. On the western front—the battle line that stretched across northern France and Belgium—the combatants settled down in the trenches for a terrible war of attrition.

In 1915, the Allies attempted to break the stalemate with an amphibious invasion of Turkey, which had joined the Central Powers in October 1914, but after heavy bloodshed the Allies were forced to retreat in early 1916. The year 1916 saw great offensives by Germany and Britain along the western front, but neither side accomplished a decisive victory. In the east, Germany was more successful, and the disorganized Russian army suffered terrible losses, spurring the outbreak of the Russian Revolution in 1917. By the end of 1917, the Bolsheviks had seized power in Russia and immediately set about negotiating peace with Germany. In 1918, the infusion of American troops and resources into the western front finally tipped the scale in the Allies’ favor. Germany signed an armistice agreement with the Allies on November 11, 1918.

World War I was known as the “war to end all wars” because of the great slaughter and destruction it caused. Unfortunately, the peace treaty that officially ended the conflict—the Treaty of Versailles of 1919—forced punitive terms on Germany that destabilized Europe and laid the groundwork for World War II.
 
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