Tag: space

The Coldest Natural and Artificial Temperature in the Universe

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The coldest temperature ever measured and/or observed was within a controlled laboratory experiment in Germany; an experiment entitled “Time‑Domain Matter‑Wave Lens System for Atomic Clouds”. During this experiment, physicists cooled a cloud of rubidium atoms to 0.000000000038 (38 trillionths) of 1 degree above absolute zero which is -273.15 degrees Celsius, colder than the vacuum of space, slowing these atoms to a near motionless state for a very short period of time which created a fleeting state of matter existing closer to perfect stillness than anywhere or anything else within the universe. This experiment was the closest scientists have come to achieving complete absence of motion within a controlled setting. Contemporary models of physical cosmology postulate that the theoretical minimum possible temperature is absolute zero, which has a value of 0 kelvin. Temperatures below this are believed to be physically impossible because particle energies become so tiny that all molecular motion ceases to continue functioning, allowing quantum effects to dominate, and producing exotic states of matter (e.g. Bose-Einstein condensates in which matter behaves as a single quantum entity etc.). The coldest naturally occurring place within the universe is the Boomerang Nebula, a dying star cloud located approximately 5,000 light years away from the Earth. The Boomerang Nebula has been measured at 1 degree above absolute zero, making it even colder than the faint afterglow of the Big Bang itself, yet the Time‑Domain Matter‑Wave Lens System for Atomic Cloud experiment is 26,000,000,000x (26 billion) colder and closer to absolute zero than the Boomerang Nebula or any other naturally occurring region with low heat

The Origin of Uppercase and Lowercase Letters and the Influence of Typesetting Upon the English Language

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The term “uppercase” and “lowercase” in relation to alphabet letters was derived during the Victorian period within England. Advertising was highly prominent during the 19th century and used ubiquitously by businesses. The poster makers who would serve these businesses would use letters which were essentially stamps, dipped into thick, viscous, oily ink, specifically formulated this way to cling to and transfer cleanly onto coarse paper which was designed to be rough so that it could absorb as much ink as possible. Compositors, which was the name for this particular vocation during the 19th century, would keep their letters in a type case with large letters at the top and small letters at the bottom. The letters were kept in what was effectively a suitcase which did not close which is where the terms “uppercase” and “lowercase” originated from, as the letters were stored in either the upper portion of the type case or the lower portion of the type case. Each individual letter, a block referred to as a “sort”, was cast in metal and crafted backward to be arranged by hand by a skilled craftsperson. The layout of the case, with capital letters in the upper section and lowercase letters in the bottom, was highly pragmatic, as it positioned the most often used letters at the bottom closer to the person setting the typeset. Interestingly, this pragmatism influenced the English language as compositors not only set letters, they also selected when to use punctuation, spacing, and line breaks, all of which shaped how text was read and understood. Because movable type requires physical pieces for every character used, punctuation was to be used deliberately as too many commas, colons, em dashes etc. meant more time spent, more metal used, and more space being taken up upon the page. This physical constraint helped standardize English punctuation use and even influenced sentence structure, encouraging clarity and economy in writing which are themes that have endured into the 21st century

The Reason Mercury’s Orbit Around the Sun Appears Retrograde From Earth

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Albert Einstein’s Theory of Relativity can be proven because of how Mercury orbits the Sun. Isaac Newton correctly explained how and why planets orbit the Sun, but because Mercury is so close to the Sun, it orbited its center star 7% faster than it should have therefore Mercury is close enough to the Sun that its space-time path is warped because of the mass of the Sun and this warping causes Mercury to orbit faster than planets further away. For many decades scientists hypothesized there was another planet, unseen yet, which gave Mercury an extra push. This additional planet was prematurely named “Vulcan”, which was in vain because no such planet ever existed. It was also theorized that cosmological dust gave Mercury its extra boost or that an unseen asteroid or asteroid field was helping Mercury along. It wasn’t until Albert Einstein proposed that all matter cuts through both space and time, following a curve, that the catalyst could be definitively proven. If a sphere rolled along a table and suddenly hit a dip, it would speed up and change its trajectory. This is essentially what occurs within space-time and is the reason Isaac Newton’s Universal Laws of Gravitation don’t quite fit with Mercury. Mercury is close enough to the Sun that its space-time path is warped because of the mass of the Sun and this warping causes Mercury to orbit faster than planets further away. It is not only Mercury which does this; any planet or body near its host star will orbit slightly faster than planets or bodies further away. Although it is impossible to visually see the curvature and bending of space-time, it can be definitively proven because of the way large bodies of matter affect smaller bodies of matter due to the mass of each body

The First Use of Spaces In Writing

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Ancient Greek writing did not observe spaces as modern day written language does so all words were connected, forming a continuous string of text. Aerated text with irregular spaced intervals did not develop until the late 7th century A.D. and standard modern day spacing after each term did not develop until the 11th century A.D. Ancient Greek writing also observed the practice of Boustrophedon (pronounced “boos-trah-fee-don”) which is when text is written and read right to left instead of left to right as modern day English and most other, however not all other, world languages do (e.g. Japanese, Arabic, Hebrew etc.)

The Discovery of the Sunken Titanic

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The Titanic’s shipwreck site was found by the U.S. Navy whilst embarking upon a clandestine military submarine sea voyage operation in 1982. The intent of the mission was to surpass the Russians on every front, including land, sea, air, and space. Geologist and Navy Captain Robert Ballard was the person who developed the mission idea by suggesting that the U.S. Navy scour the seafloor to gather intelligence and search for evidence of Soviet placed hardware. The original intention of the mission was to locate and recover 2 U.S. Navy submarines which were classified as top secret nuclear attack vessels and lost during the 1960’s. The first submarine was the U.S.S. Scorpion, lost in 1968 with 99 onboard, and the second was the U.S.S. Thresher, lost in 1963 with 129 onboard. Recovery of these vessels during the 1960’s was limited to the Sound Navigation and Ranging technology of the era, commonly abbreviated as “SONAR”. Ballard only had 12 days to locate the S.S. Titanic during the mission without exposing his cover story, a feat which was unable to be completed by the French and the Americans, despite having much longer time spans and multiple expeditions to achieve this goal. Ballard narrowed down the search area to 80 square kilometers and focused towards the south as he believed that ocean currents would have carried sunken debris in that direction. Ballard continued searching for a trail of scattered debris from the S.S. Titanic and on the 9th day of the expedition, with time quickly running out, the operators of the remotely operated vehicle ARGO, found wreckage from a modern iron ship which appeared to be from the early 20th century. It was confirmed shortly after on September 1, 1985 at 12:48 AM that these remains were 1 of the 29 boilers belonging to the S.S. Titanic. It had been 73 years since the S.S. Titanic was last seen, resting nearly 4 kilometers below sea level, with it’s 1500 onboard passengers and crew

The Mathematics Behind Why Rockets Can Escape The Gravitational Pull of the Earth

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Robert Goddard’s liquid rocket never reached the 3 kilometer mark because of Tsiolkovsky’s Rocket Equation named after Soviet scientist Konstantin Tsiolkovsky (pronounced “con-stan-tyin tsel-kov-skee”). This equation states that as fuel increases for faster and further voyages, so too does the weight, becoming increasingly heavy as more and more fuel is added. Tsiolkovsky took into account the velocity of a rocket alongside its mass of payload, mass of fuel, and the mass of the rocket itself. The longer the engine burns, the more velocity the rocket will have, however longer burning means more fuel which adds weight and makes it more difficult to push upwards. To travel fast enough to deliver a rocket to space, most of the craft must be fuel. Scientists have battled with this question for decades and although mathematical constructs have been developed to explain the relationship between weight and thrust, no one has yet to develop an idea to get around this problem with currently available technologies. The equation developed to explain this limitation of space travel is ΔV^R = V^E * ln((M^P + M^F + M^R) / (M^P + M^R)). This effectively states that only a tiny portion of a rocket can be used to deliver payload, with notable cases being the Apollo missions which employed enormous rockets to carry just a few small astronauts and the things they needed into space. Tsiolkovsky theorized this in the beginning of the 20th century as his calculations demonstrated that kerosine wouldn’t be enough to go from the Earth to the moon with a single craft

Re-Useable Rockets for Space Exploration

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Rockets are traditionally not re-used unlike aviation aircraft because making a landing from space means that a craft must come back to Earth’s atmosphere at a speed of 8 kilometers per second, a much more difficult task than that of landing a commercial aircraft at a cruising speed of just over 800’ per second

The Reason the Challenger Spacecraft Disaster Occured

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The reason the Challenger space craft exploded 73 seconds into its launch on January 28, 1986 was because the temperature the morning of the launch was -1 degrees Celsius which caused the o-rings placed around the rocket’s boosters to shrink and leak fuel upon liftoff. This theory was brought to light by Valentina Tereshkova, who was the first woman in space. Tereshkova relayed her theory to one of the heads of staff at the National Aeronautics and Space Administration who then relayed it to Richard Feynman by showing him how vehicle carburetors which also have o-rings experience the same issue. If the ambient temperature is below 11 degrees Celsius this issue is a common occurrence with all o-rings, regardless of the vehicle or craft it is installed upon

Sputnik: The First Satellite

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Sputnik which means “traveling companion” in Russian, was launched in 1957 and was the first satellite in space. Today, there are over 1200 satellites orbiting the earth, 50% of which are owned by the U.S. Sputnik was first observed by the Americans on October 4, 1957 and because of this, 1 year and 1 week later, the National Aeronautics and Space Administration was formed. The U.S. was acutely aware of the consequences which would follow if they were to allow the Russians, and therefore the ideology of Communism, to win the Space Race during the Cold War. The National Aeronautics and Space Administration was initially set up with a large budget which at its peak reached 4.41% of the U.S. federal total budget. Today that value is approximately 0.5% of the total U.S. federal budget