Science Was Wrong: Startling Truths About Cures, Theories, and Inventions They Declared Impossible
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Space travel was declared "utter bilge" in 1956 by the British astronomer Royal, one of a long line of scientists who "proved" it was impossible.
Throughout history, it has been difficult, even impossible, to promote the acceptance of new discoveries. Yet during the last two centuries, there has been a veritable explosion of new cures, theories, techniques, and inventions that have revolutionized aviation, space travel, communications, medicine, and warfare.
Most of them, of course, were deemed "impossible."
Science Was Wrong is a fascinating collection of stories about the pioneers who created or thought up the "impossible" cures, theories, and inventions "they" said couldn't work. How many have suffered or died because cures weren't accepted? How many inventions have been quashed? How much progress was delayed or denied?
You will end up shaking your head in disbelief and even disgust as you learn the answers.
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- Rating: 5 out of 5 stars5/5Should be required reading for closed-minded, psuedoscientific skeptics. Good read.
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Science Was Wrong - Stanton T. Friedman
Introduction
The history of science and technology is rife with authoritative claims by reputable scientists that have impeded progress. Many of the claims seem humorous with the benefits of hindsight. There have also been a number of compilations of silly claims of impossibility made by smart people. But no book, until now, goes into the serious implications for society of blindly rejecting new scientific discoveries simply because they fail to conform to the preconceived paradigms of the scientific establishment. This book critically examines historical proclamations of impossibility
in the areas of aerospace, technology, medicine, and politics that were later refuted, and investigates the frontiers of science.
The history of aerospace technology is loaded with well-connected scientists who resisted change. There were prominent experts
who thought flight was not to be. Had they been supportive of progress in this field, there could have been real benefits to humanity. Could World War II have ended sooner if jet engines had been implemented earlier in England, where a patent had been granted in 1930? How many lives would have been saved if space travel had been pursued sooner, providing better advance information about natural disasters, such as tornadoes and hurricanes, and early warning of attacks from enemies?
Communication techniques didn’t start changing until less than 200 years ago. The telegraph, telephone, television, Internet, and cell phone were all targets for the impossibilists. Sometimes it required true persistence to overcome the inertia of these traditionalists. Why would one want to sit in front of a box watching pictures? Of what use is a telephone if there is nobody to call? Their lack of imagination and foresight is obvious. Did they not think of the benefits of rapid, long-distance communication in medical situations or when ships at sea run into serious problems? Can we allow societal regulations to be established in response to pressures from people with a vested interest in continuing the status quo?
Germ theory was first advanced in ancient Sanskrit texts and later proposed in 36 BC. Despite observational and experimental data, it was not widely accepted until late in the 19th century, when Louis Pasteur discovered that microorganisms, not miasmas (the poisonous atmosphere arising from swamps and putrid matter), cause disease. Unfortunately, his discovery was not immediately accepted. Many influential opponents from the scientific establishment clung to their archaic beliefs and were slow to acknowledge that his germ theory of disease was valid. Attempts by his predecessors to impart evidence of the transmission of microscopic organisms as a cause of disease were largely unsuccessful. As a result, careers were ruined, and many people died because of a failure to implement new treatments and new understanding of various diseases. Even in our day, experts have often dismissed the dangers of new treatments long after the data was available. How many contracted HIV/AIDS because of the failure of governments to take appropriate measures? It is clear that innovative scientists have a long history of facing harsh rebukes by the medical establishment.
Worse, highly regarded but politically influenced scientists have promoted ideas that have led to human suffering. For example, social Darwinism fueled the Eugenics Movements in America and Germany and led to sterilization and extermination programs. The dark underbelly of corruption has reared its head in environmental science, causing thousands to die or be maimed due to methylmercury poisoning. Additionally, we are faced with environmental concerns about global warming. Should hundreds of billions of dollars be spent to attack evil carbon dioxide, or is this another example of vested interests triumphing over the real needs of society?
This book explores the frontiers of science, such as psychic phenomena and extraterrestrial visitation. A small group of vocal arch-skeptics claims a hundred years of research has failed to produce convincing evidence for psi phenomena. Parapsychologists disagree, arguing that hundreds of scientific studies have produced evidence that some psi phenomena are real. Each group accuses the other of confirmation bias. But what is the truth? Do parapsychologists selectively report evidence that supports psi phenomena? Or do arch-skeptics automatically reject statistically significant experimental replications?
For more than 60 years, strong attacks have been made on all aspects of the UFO question. Impossibilists have claimed that travel from other stars is impossible, there is no evidence for flying saucer reality, aliens could not possibly look humanoid, governments could not cover up the truth, aliens wouldn’t behave the way they are supposedly observed to behave, eyewitness testimony is not part of the scientific method, there is no reason to abduct Earthlings, and so on. These claims are not derived from a serious review of the evidence, but rather are created by armchair theorizing without relation to the vast amount of evidence available for those who seek it out. False attempts have been made to show that Occam’s razor supposedly rules out saucer reality, and that scientists in general—and astronomers in particular—do not observe UFOs. It turns out that the primary attacks on UFO reality by supposed professionals can generally be described as pseudoscientific. The attackers have inordinate confidence in themselves plus an almost religious faith in their feelings, intuition, and hunches. They simply don’t need to investigate because they know the answers. That is not science, but pseudoscience.
During the past 200 years, there has been an enormous explosion of new discoveries and inventions in aviation, space, communications, medicine, and warfare. The claims of individuals who declared something was impossible help us to recognize how many lives have been lost and the benefits delayed by the impossibilists. All too often, pronouncements of impossibility were made from positions of ignorance rather than knowledge, but were listened to because of the exalted status of the speaker, rather than the evidence, if any, put forth in support of a position. Throughout history it has been difficult, if not impossible, to promote the acceptance of new discoveries. The reasons are multifaceted, but often involve arrogance and mountainous egos, politics and greed, and resistance to change. One can only wonder how many groundbreaking discoveries have been suppressed. There are many lessons to be learned by studying the various situations described in Science Was Wrong.
AEROSPACE
Between the time of the Wright brothers’ first flight in 1903 and the launch of the first satellite (Sputnik) in 1957, there was an enormous growth in commercial, civil, and private aviation. Creative people were willing to disregard ridicule and the rants of the impossibilists. No longer did one hear that if God had intended for man to fly, he would have given him wings. Nevertheless, the impossibilists couldn’t imagine the potential benefits of aviation and space exploration and their utilization.
It has always been clear that there would be a need for the expenditure of large amounts of money to develop the required infrastructure of a space program. After all, there were no landing facilities, refueling places, runways, weather information, communication systems, or regulations, but it didn’t take long for governments to realize that there were strong military benefits—airplanes could be used for reconnaissance, defense, and bombing. The atomic bomb, developed in secrecy, was done with the objective of making a device that could be dropped from an airplane. The cost was an astronomical, for the day: two billion dollars. Of daily importance, the use of airplanes for mail delivery provided profit and an improvement on an existing national mail system. It also helped increase the size of planes and the frequency of flights.
With regard to space, many with limited imaginations couldn’t foresee the benefits, such as weather forecasting, spying on one’s enemies, and communications systems for accepting and receiving signals from the ground and redirecting them to other locations. New cameras, radio transmitters, and other devices had to be developed and miniaturized.
For whatever reason, astronomers were in the forefront of the impossibilist movements against both aviation and space travel. Perhaps it is because astronomers are normally not involved with, and could not justify, the expenditures of the huge sums of money that have been required for the development of high-performance aircraft, ICBM rockets for the delivery of nuclear warheads, very sophisticated cameras, and data transmission. Some of the spy satellites launched for the National Reconnaissance Office cost half a billion dollars each, which is more than the total budget of a host of astronomers. Yet, strangely, astronomy has been one of the fields benefiting most from new systems such as the Hubble Space Telescope, sophisticated devices landed on Mars and the moon, and such very special satellites as the Pioneer, Viking, Voyager, and Cassini spacecraft.
1
Aviation
Man has dreamed of flying for as long as he has observed birds soaring high. A number of brave (or foolish) people attached wings to their shoulders and tried soaring off hilltops...not very successfully. The ancient Greek legend of Icarus and Daedalus may have fueled some of these dreams. In the 13th century, Marco Polo reported that, while in China, he had observed large kites being used to fly
people. During the Renaissance, Leonardo da Vinci sketched aerial devices, including a helicopter, though he was more focused on conceptualization than manufacturing or testing. The first manned flight actually used an unpowered hot-air balloon built by brothers Joseph and Jacques Montgolfier, paper mill owners, on October 15, 1783, in Annonay, France, and carried two passengers. Three months later, they carried seven passengers to a height of 3,000 feet. Unpowered gliders were being flown during the 19th century. They had no engines, but did have wings. Considerable aeronautics research was being done at the time, including by such pioneers as Sir George Cayley, who conducted many studies of aeronautics. His published results had a significant impact on the Wright brothers many years later.
There were, of course, prominent experts
who thought flight was not to be. In 1896, the great Lord Kelvin, president of the British Royal Society, was offered a membership in what is now the Royal Aeronautical Society of Great Britain. His response was, I have not the smallest molecule of faith in aerial navigation other than ballooning or of expectation of good results from any of the trials we hear of.
¹ H.G. Wells, author of War of the Worlds, was almost as conservative, claiming in 1902 that long before the year 2000 and very probably before 1950 a successful aeroplane will have soared and come home safe and sound.
² It took less than two years.
Finally, on December 17, 1903, in Kitty Hawk, North Carolina, the Wright brothers (Orville and Wilbur—they took turns) made the first controlled sustained flights of a manned, powered vehicle. Perhaps not surprisingly, just two months before the Wright brothers’ big day, one of the top astronomers of the 19th century, Dr. Simon Newcomb, had written, The demonstration that no possible combination of known substances, known forms of machinery, and known forms of force can be united in a practical machine by which man shall fly long distances through the air, seems to this writer as complete as it is possible for the demonstration of any physical fact to be.
³ This seems to ignore the possibility that there would be new forms of machinery or new forces unknown to Dr. Newcomb, who was certainly not an expert on flying machine design.
The impossibilists seemed not to understand that generally technological progress comes from doing things differently in an unpredictable way, and that the future is rarely an extrapolation of the past. There was also a tendency to judge the newest-model device, on which research had just begun, against a very well-developed older technology. For example, newly invented cars were compared to well-developed trains. This was hardly a fair comparison. Newcomb was not only not involved in engineering work, but was also not acquainted with the work that had been done by others. His approach was very superficial, noting, for example, that the weight of a craft goes up more rapidly with increasing size than does the surface area. It turns out that the devil was very much in the details.
In contrast with Newcomb, Samuel Pierpont Langley was an engineer and architect with a strong interest in aviation. He had become secretary of the Smithsonian Institution in Washington, D.C., in 1887 and performed many studies of flight, including flying a number of unmanned, powered models, and measuring forces on flat and curved surfaces. In 1896, he had actually flown an unmanned, steam-powered, 14-foot model for 3,000 feet with surprising stability, even touching down gently when it ran out of fuel. Another model flew 4,200 feet. The War Department, in 1898, involved in the Spanish American War, gave him a grant for $50,000 (a considerable sum for those days) to try to achieve manned flight. He then built a full-sized, manned machine that had a 53-horsepower gasoline engine. He made two attempts using a ramp and catapult on the Potomac River to get it up to speed. Neither was successful, but at least the pilot wasn’t killed when the planes crashed. There was much public ridicule after the second failure. The press referred to the debacle as Langley’s Folly.
The Wright brothers’ first flight was only nine days later, but done in obscurity rather than in the glare of publicity.
Of course, Newcomb wasn’t the only naysayer. The great inventor Thomas Edison, who eventually held more than 1,000 patents, on November 17, 1895, was quoted as saying, It is apparent to me that the possibilities of the aeroplane, which two or three years ago was thought to hold the solution to the flying machine problem, have been exhausted, and that we must turn elsewhere.
⁴ Strangely, Edison had been the target of impossibilists regarding the phonograph (it was claimed he must be a ventriloquist) and even the light bulb.
The Wright brothers were very skilled mechanics, though neither was a high school graduate, and designed and manufactured bicycles near Dayton, Ohio. They became interested in flight in the 1890s and gathered as much published information as they could from the Smithsonian Institution, many individuals, and a number of books that had already been published. They built a number of unmanned glider models but found that the measurements they made of important parameters, such as lift and drag, did not match the values predicted using the best available calculations. They then built their own small wind tunnel and made hundreds of tests until their calculations matched the measurements. They were well aware of the difficulties, such as finding a light-weight engine to drive a propeller (some had tried using heavy steam engines), selecting the right curvature of the wings, finding a means for turning the airplane, and landing safely. They had applied for a patent in March 1903, but didn’t actually make flights in public until several years later. A total of five flights were made on December 17, 1903, the longest being 852 feet. Of course there were no TV cameras present at their first flight, and only three newspapers in the United States carried the news item. That very first aeroplane weighed all of 700 pounds, had an engine producing 12 horsepower, was a bi-plane (two wings), and with the first flight covered a distance of only 112 feet for 12 seconds. The entire flight would fit inside a 747 aircraft. It was a beginning, but hardly a harbinger of the progress soon to be made.
The brothers were hoping to get significant funding to improve their design. They applied for a government grant and were turned down twice. They finally got a contract for $25,000 for the purchase of a plane by 1908. They also received a bonus of $5,000 because the plane achieved a velocity of 47 mph as opposed to the required value of 40 mph. After 1905, they greatly reduced their flying and development, but brought a number of legal actions to protect their patent. They tried to make sales in Europe.
Their legal actions didn’t stop Glenn Curtiss from building a large number of his own aircraft. He had been joined by Alexander Graham Bell, inventor of the telephone, in a new company. As a matter of fact, by 1916, Wright planes would constitute only 9 percent of the American Army aircraft, while Curtiss provided 69 percent. The Wright Brothers seemed to have become complacent with their success. Even Wilbur Wright wrote in October 1906, We do not believe there is one chance in 100 that anyone will have a machine of the least practical usefulness within five years.
⁵ Much sooner than that, the Europeans had overcome the early U.S. lead in aviation. A primary reason was the impending war and the recognition that in Europe, with a much larger population base and cities much closer to each other than in the United States, planes could be very useful. It is shocking to realize that in 1914, at the beginning of the First World War, Russia, Germany, France, and Britain had between them 751 aircraft. The United States had only 23.
Looking back from the vantage point of the 21st century, it is clear that military objectives and the willingness to spend huge sums of money were important in the development of many areas of technology including not only aviation, but space, submarines, communications, navigation, radar, and the miniaturization of electronic devices. Often these developments took place in spite of the lack of vision of many prominent politicians, scientists, and even military people themselves.
In the 1900s there was strong sentiment in certain circles against any optimistic thinking about the future of aviation, making it difficult to obtain funding. For example, on January 1, 1900, an engineer, Worby Beaumont, in response to a question from a journalist who had asked if man would fly in the next century, said, The present generation will not fly and no practical engineer would devote himself to the problem now.
⁶ Rear Admiral George Melville, Engineer-in-Chief of the United States Navy, was quoted as saying in the North American Review of December 1901: There is no basis for the ardent hopes and positive statements made as to the safe and successful use of the dirigible balloon or flying machine, or both, for commercial transportation or as weapons of war.
⁷ Dirigibles had already started flying in 1900. Some people could envision aircraft that would be much larger, carry more payload, and fly higher and faster than was possible then. Others couldn’t. Even Octave Chanute, an aviation pioneer, stated in 1904 that Airplanes will be used in sport, but they are not to be thought of as commercial carriers. To say nothing of the danger, the sizes must remain small and the passengers few, because the weight for the same design will increase as the cube of the dimensions, while the supporting surfaces will only increase as the square.
⁸ Chanute was very much sold on aviation. He published freely, and consulted with the Wright brothers. He had been a very successful engineer building bridges, railroads, and other structures.
It is interesting that though American engineering was in the lead early on, as World War I approached, Europeans led the way. When American pilots joined up, they were flying mostly European planes. Reconnaissance and artillery target-spotting were, of course, one benefit, but it was found that as engines got more powerful and payloads greater, other uses were feasible. Guns could be mounted on airplanes, and it was possible to communicate between the air and the ground and plane to plane. Bombs could be dropped, as well. However, one estimate of the situation by Charles Stewart Rolls, automobile and aviation pioneer and cofounder of Rolls-Royce (still a major manufacturer of aviation engines), in 1908 stated, I do not think that a flight across the Atlantic will be made in our time, and in our time I include the youngest readers.
⁹ That feat was achieved only 11 years later in June 1919 by the Vickers Vimy IV bomber, flown by John Alcock and Arthur Whitten Brown from Newfoundland to Ireland.
By the end of World War I, the United States had produced a number of airplanes, including large seaplanes, and there was serious discussion of crossing the ocean. In 1915, the United States finally set up a research and development organization, the National Advisory Committee on Aeronautics. Among their interests were the military activities that could be conducted. For example, planes could be used to shoot down enemy aircraft, negating their reconnaissance efforts. Some people were envisioning transatlantic flights by seaplanes that would land on the water, be refueled by a waiting tanker, and then take off again.
American General Billy Mitchell, who was very active in military aviation in Europe during the First World War, after the war was espousing the notion that airplanes would change the nature of warfare. He also made the extraordinary claim to some that airplanes would be able to sink ships. Newton D. Baker, U.S. Secretary of War, stated in 1921, The idea is so damned nonsensical and impossible, that I am willing to stand on the bridge of a battleship while that nitwit tries to hit it from the air.
¹⁰ He would have died of drowning when the German battleship Ostfriesland was sunk by bombs dropped from the air in July 1921. The Secretary of the Navy, Josephus Daniels, had joined the chorus with this sage comment: Good God, this man Billy Mitchell should be writing dime novels.
¹¹
The same fatalistic attitude was still in place in 1941. The caption to the photograph of the battleship USS Arizona in the program of the Army-Navy Football game of November 29, 1941, stated, It is significant that despite the claims of air enthusiasts, no battleship has yet been sunk by bombs.
It was only eight days later that the USS Arizona was itself sunk by Japanese bombs dropped from the air at Pearl Harbor, Hawaii, killing 1,102 men. It seems obvious that a bomb dropped on a ship needn’t completely destroy or vaporize the ship, but rather produce a hole or break a welded seam so that water can flow in, and the weight of the water replacing air would do the sinking.
Billy Mitchell was courtmartialed