Thus our bodies, while being schemes of competing claims, refuse to fly apart.
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Otherwise, with the galaxies moving so fast, a cluster would simply fly apart.
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But as we near the coast of America, Lawhon's prose begins to fly apart.
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The stress from this transition can cause particles to crack and fly apart like popcorn.
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Black dots vibrate; rectangles do back-flips; puzzle-like forms fly apart and snap back together.
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Later, Vera Rubin and Kent Ford used unseen dark matter to explain why galaxies themselves don't fly apart.
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You're battling hackneyed enemy archetypes using likewise-archetypal weapons, but damn if these rooms don't fly apart into clouds of destroyed furniture, gunsmoke, and atomized concrete.
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In the later stages, especially, he shepherds us through crazy happenings as though, without the calming guidance of his voice-over, the various bits of story would fly apart.
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It is admittedly almost impossible to tell a Fonseca's seed fly apart from the many other seed fly species, but an expert can make the identification by examining the genitalia under a microscope.
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Take 3: A month after its launch in February 2016, the $1 million Hitomi telescope lost contact when the control system that stabilized it repeatedly failed, causing the satellite to spin uncontrollably and fly apart.
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Barely minutes after the stage's thick red drapes close behind him, they fly apart again and a skinny figure drowning in oversized clothes emerges, like a miserable Jesus, through a wall of white lights and smoke.
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The blocks don't just vanish when you hit them — they fly apart in a shower of sparks and bounce around the level, complete with just the slightest touch haptic feedback to let you know you hit it.
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Madrid has written a fascinating series of puzzles without solutions, a set of poems almost all in the same few invented forms, all held together by rhymes and repeated words even as their apparent topics fly apart.
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By that I mean that anything that might hurt a slice of bread—hitting the ground, being scraped against something, being smashed into a car at 80 miles per hour—will make your car fly apart into its constituent pieces.
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Even Hawkinson's grandest undertakings, like the 2007 "Überorgan" that filled the Getty Center in Los Angeles with a massive bagpipe-esque device, have felt a bit shambly, like their mad-scientist mix of found objects and motorized parts might fly apart at any moment.
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The three form an odd triangle. Margo herself is manipulative and exploits both Paul and Don to serve her ends. Don is a loner at heart, however. The triangle is set to fly apart.
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Rotation periods of a large number of minor planets. Most smaller bodies have a period between 2.2 and 20 hours, and are thought to be rubble piles. Bodies rotating faster than 2.2 hours, however, must be monolithic, as they would fly apart otherwise. This explains why there are so few fast-spinning minor planets.
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In the absence of the spring, the particles would fly apart. However, the force exerted by the extended spring pulls the particles onto a periodic, oscillatory path. Rotational–vibrational coupling occurs when the rotation frequency of an object is close to or identical to a natural internal vibration frequency. The animation on the right shows a simple example.
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Magnetic fusion energy reactors overcome this problem using a bulk plasma, where ions have many thousands of chances to collide. Two beams colliding do not give the ions much time to interact before the beams fly apart. This limits how much fusion energy a beam-beam machine can make. In addition, beams do not remain focussed.
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Let us now praise Band of Susans." Greg Kot of The Chicago Tribune called the album the band's "best record" and said that they "have perfected one of the more distinctive vocabularies in the guitar-band pantheon. Instead of taking on traditional lead and rhythm roles, the three guitarists create a matrix of riffs that interlock and fly apart. Susan Stenger's bass frequently states the melody, while Ron Spitzer's drums knock out precision patterns that mesh with the guitars.
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It measures only 12 m by 24 m and is very dense, having a mass of about 5,000 tonnes. If the asteroid were not dense, it is probable that the rapid rotation would cause the asteroid to disrupt and fly apart. At the time of discovery, had the smallest known rotation period in the Solar System, completing one revolution every 42.7 seconds. It is listed on the Sentry Risk Table with a 1 in 17,000 chance of impacting Earth on May 2, 2081.
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Giant impacts have a large effect on the spin of terrestrial planets. The last few giant impacts during planetary formation tend to be the main determiner of a terrestrial planet's rotation rate. On average the spin angular velocity will be about 70% of the velocity that would cause the planet to break up and fly apart; the natural outcome of planetary embryo impacts at speeds slightly larger than escape velocity. In later stages terrestrial planet spin is also affected by impacts with planetesimals.
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The rats are moving the Brisby home, with the children inside, using a rope and pulley system during a thunderstorm. Jenner, who wishes for the rats to remain in the rose bush, sabotages the ropes with his reluctant accomplice Sullivan, causing the assembly to fly apart and kill Nicodemus. Mrs. Brisby arrives and tries to convince the rats that NIMH is coming and they must leave, but Jenner attacks her and attempts to steal the amulet. Sullivan alerts Justin, who rushes to Mrs.
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Note the crack starting in the bottom of it The angle of intersection of the bearing surfaces is subtended by an arc at a. Suppose the wood is removed and a number of axes are placed face-to-face, and that P is a static gravitational load. The arc is extended to an arch, while Q is diverted along the arch, leaving a force-free space below it. The forces at Q, however, must ultimately be countered or the arch will fly apart and collapse.
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In March 2008, a rotational lightcurve of Karayusuf was obtained from photometric observations by Brian Warner at his Palmer Divide Observatory in Colorado. Lightcurve analysis gave a well-defined rotation period of hours with a rather small brightness amplitude of 0.15 magnitude (). The body's rotation is close to the threshold-period of that of a fast rotator, which would fly apart if they were not composed of a solid, monolithic structure. Follow-up observations by Warner in 2010, 2014 and 2018 gave similar results.
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Bodyflight includes various flight poses, movements and flight transits, when combined, flight elements (tricks) are formed. Also this include turns, rolls, lateral movement, fall rate control, and other acrobatics in the air. The skill of bodyflight makes it possible for skydivers to fly closer to each other while they are falling, to allow them to link together in formation skydiving, then fly apart to a safe distance before opening parachutes. The flight pose is the body position controlled by the muscular effort in the air flow.
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The sticks are woven together to form a reticulated grid with each stick held in place by a bending moment created by the elasticity of wood or other material. If constructed properly, the removal of a single stick causes the other sticks to fly apart with surprising force. The speed of the shock wave depends on the materials used. The variety of configurations in which stick bombs can be constructed is virtually limitless, and there are several tricks (stunts) that can be incorporated into the design.
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After spending the night in an open field near the village of Guskovo and traveling all the way to the city on foot, the team of the men part, realizing that further men's games military assembly and exercises will not take place anymore, that the last stop has been placed in their departing youth, and most likely they will not meet again. Like planets with different orbits, they only met for a moment and lined up in a "planet parade" only to fly apart forever.
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From theoretical considerations, in 1934 Hideki YukawaH. Yukawa, (1935) predicted the existence and the approximate mass of the "meson" as the carrier of the nuclear force that holds atomic nuclei together. If there were no nuclear force, all nuclei with two or more protons would fly apart due to electromagnetic repulsion. Yukawa called his carrier particle the meson, from μέσος mesos, the Greek word for "intermediate", because its predicted mass was between that of the electron and that of the proton, which has about 1,836 times the mass of the electron.
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Since 1968, several rotational lightcurves of Icarus were obtained from photometric and radiometric observations. During the asteroid's close approach in June 2017, observations of the fast-moving object were taken by Italian astronomers Virginio Oldani and Federico Manzini, Brian Warner at the Palmer Divide Station () in California, and by Australian astronomers at the Darling Range and Blue Mountains Observatories (). Lightcurve analysis gave it a consolidated rotation period of 2.2726 hours with a brightness variation of 0.22 magnitude (). Icarus is a relatively fast rotator, near the threshold where non-solid rubble piles fly apart.
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Alexanderson's family were convinced the huge spinning rotors would fly apart and kill him, and he set up a sandbagged bunker from which to test them. In the summer of 1906 Mr. Alexanderson's first effort, a 50 kHz alternator, was installed in Fessenden's radio station in Brant Rock, Massachusetts. By fall its output had been improved to 500 watts and 75 kHz. On Christmas Eve, 1906, Fessenden made an experimental broadcast of Christmas music, including him playing the violin, that was heard by Navy ships and shore stations down the East Coast as far as Arlington.
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Bodies below a period of 2.2 hours – also known as the "cohesionless spin-barrier" – can not be merely held together by self-gravity, but must be formed of a contiguous solid, as they would fly apart otherwise. Via the deduction of strength boundary limits, rotation periods give an insight into the body's internal composition, and, from its degree of fracture, its collisional history can be inferred. Bodies with an uncertain period are displayed in dark-grey. They have a LCDB quality code, U, of less than 2, which corresponds to an estimated error margin of larger than 30%.
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Among the , there are currently 15 bodies with a period longer than 1000 hours. According to the Minor Planet Center, the sharp lower limit of approximately 2.2 hours is due to the fact that most smaller bodies are thought to be rubble piles – conglomerations of smaller pieces, loosely coalesced under the influence of gravity – that fly apart if the period is shorter than this limit. The few minor planets rotating faster than 2.2 hours, therefore, can not be merely held together by self-gravity, but must be formed of a contiguous solid. have only an inaccurate period, estimated based on a fragmentary lightcurve and inconclusive measurement.
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She observed flat rotation curves: the outermost components of the galaxy were moving as quickly as those close to the center. This was an early indication that spiral galaxies were surrounded by dark matter haloes. She further uncovered the discrepancy between the predicted angular motion of galaxies based on the visible light and the observed motion. Her research showed that spiral galaxies rotate quickly enough that they should fly apart, if the gravity of their constituent stars was all that was holding them together; because they stay intact, a large amount of unseen mass must be holding them together, a conundrum that became known as the galaxy rotation problem.
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Among shaped-canvas artists of more recent generations, Elizabeth Murray (1940–2007) produced playfully "exploding" canvases, in which exuberance of shape and color seems to force itself outside the normative rectangle – or, as a 1981 New York Times review put it: "...the inner shapes blast off from their moorings and cause the whole painting to fly apart." NY Times review: "Art: Exploding Canvases of Elizabeth Murray", May 8, 1981. Singapore's Anthony Poon (1945–2006) continued the tradition of cool, abstract, minimalist geometry associated with the shaped canvas in the 1960s. The analytical poise and undulating repetitions in his work somewhat recall the work of modular constructivist sculptors such as Erwin Hauer and Norman Carlberg.
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Superboy can also manipulate solid masses such as volumes of sand or dust, causing the individual particles to fly apart in an explosive manner to create particle clouds or a forceful attack. He can also perform the same with solid masses that are splintered, such as a cracked slab of concrete or fractured pane of glass. The telekinetic field also lets Superboy break free of an opponent's grip by pushing the field outward to force the opponent away and he is also able to create an air pocket around himself, enabling him to breathe in outer space. In addition, he demonstrated the ability to extend his telekinetic field around other people that he touches to make them invulnerable.
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In their telling, the Earth consisted of two hemispheres, spring-loaded and held together opposite the hinge by the bridge. When it was destroyed, the story went, the two hemispheres would fly apart, flinging humanity into space. While the first employment of the Bullpup in 1965 proved a disappointment, the ultimate destruction of the bridge finally proved the promise and effectiveness of precision-guided munitions, opening the way to a new era of aerial warfare. The 1965 strikes were the first employment of modern strike packages which were combined and launched against that specific target, leading up to an evolution of air warfare to 1972 with laser-guided munitions, which would later be employed very effectively with minimal losses in Operation Desert Storm in 1991.
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This caused the nascent Roman Empire to fly apart in the 1st century CE, and the successor states were still squabbling a millennium later when the hordes of the Mongol Empire arrived. Europe and Asia are now covered with a half- dozen Mongol khanates (the greatest of which is the Khanate of Ch'in) and dozens of semi-independent petty kingdoms that are easy targets for steam- powered Tenochca slave raids. The Tenochca have coaling stations around the world and their continental lands now stretch from the Ohio River to the northern Andes. North of the Tenochca Empire's American territories are the iron mines and weapons factories of the Hotinosavannah League (the Iroquois) to the east and the Tlingit Confederacy to the west.
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Regardless of the exact details of how the supernova ignites, it is generally accepted that a substantial fraction of the carbon and oxygen in the white dwarf fuses into heavier elements within a period of only a few seconds, with the accompanying release of energy increasing the internal temperature to billions of degrees. The energy released (1–) is more than sufficient to unbind the star; that is, the individual particles making up the white dwarf gain enough kinetic energy to fly apart from each other. The star explodes violently and releases a shock wave in which matter is typically ejected at speeds on the order of , roughly 6% of the speed of light. The energy released in the explosion also causes an extreme increase in luminosity.
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Once the engine starts, the key-operated switch is opened, a spring in the solenoid assembly pulls the pinion gear away from the ring gear, and the starter motor stops. The starter's pinion is clutched to its drive shaft through an overrunning sprag clutch which permits the pinion to transmit drive in only one direction. In this manner, drive is transmitted through the pinion to the flywheel ring gear, but if the pinion remains engaged (as for example because the operator fails to release the key as soon as the engine starts, or if there is a short and the solenoid remains engaged), the pinion will spin independently of its drive shaft. This prevents the engine driving the starter, for such backdrive would cause the starter to spin so fast as to fly apart.
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Some of this excess energy is retained as internal energy of the fragment ion, some may be converted into the internal energy of the leaving neutral fragment (invisible to mass spectrometry) and the rest is released as kinetic energy, in that the fragments fly apart at some non-zero velocity. More often than not, dissociative photoionization processes can be described within a statistical framework, similarly to the approach used in collision-induced dissociation experiments. If the ergodic hypothesis holds, the system will explore each region of the phase space with a probability according to its volume. A transition state (TS) can then be defined in the phase space, which connects the dissociating ion with the dissociation products, and the dissociation rates for the slow or competing dissociations can be expressed in terms of the TS phase space volume vs.
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Shaw claimed to have been "the first pitcher to wind up preparatory to delivering the ball." Alfred Henry Spink, founder of The Sporting News, described Shaw's wind-up as follows:" > After considerable swinging and scratching around with his feet, during > which he would deliver a lengthy speech to the batter, to the effect that he > was the best pitcher on earth and the batter a dub, he would stretch both > arms at full length over his head. Then after gazing fixedly at the first > baseman for a moment, he would wheel half around and both arms would fly > apart like magic... [H]e would wind his left arm around again and let the > ball fly, running at the same time all the way from the box to the home > plate. Another account describes Shaw's delivery this way: "Shaw had a very peculiar preliminary motion.
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Primary evidence for dark matter comes from calculations showing that many galaxies would fly apart, or that they would not have formed or would not move as they do, if they did not contain a large amount of unseen matter. Other lines of evidence include observations in gravitational lensing and in the cosmic microwave background, along with astronomical observations of the observable universe's current structure, the formation and evolution of galaxies, mass location during galactic collisions, and the motion of galaxies within galaxy clusters. In the standard Lambda-CDM model of cosmology, the total mass–energy of the universe contains 5% ordinary matter and energy, 27% dark matter and 68% of a form of energy known as dark energy. Thus, dark matter constitutes 85%Since dark energy does not count as matter, this is of total mass, while dark energy plus dark matter constitute 95% of total mass–energy content.
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Electrons (smaller) on this time-scale are seen only stroboscopically and the hue level is their kinetic energy When a uranium nucleus fissions into two daughter nuclei fragments, about 0.1 percent of the mass of the uranium nucleusHans A. Bethe (April 1950), "The Hydrogen Bomb", Bulletin of the Atomic Scientists, p. 99. appears as the fission energy of ~200 MeV. For uranium-235 (total mean fission energy 202.79 MeV), typically ~169 MeV appears as the kinetic energy of the daughter nuclei, which fly apart at about 3% of the speed of light, due to Coulomb repulsion. Also, an average of 2.5 neutrons are emitted, with a mean kinetic energy per neutron of ~2 MeV (total of 4.8 MeV).These fission neutrons have a wide energy spectrum, with range from 0 to 14 MeV, with mean of 2 MeV and mode (statistics) of 0.75 Mev.
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PBS American Experience "Mike" Test At the moment of a large enough meteor or comet impact, bolide detonation, a nuclear fission, thermonuclear fusion, or theoretical antimatter weapon detonation, a flux of so many gamma ray, x-ray, ultraviolet, visual light and heat photons strikes matter in a such brief amount of time (a great number of high-energy photons, many overlapping in the same physical space) that all molecules lose their atomic bonds and "fly apart". All atoms lose their electron shells and become positively charged ions, in turn emitting photons of a slightly lower energy than they had absorbed. All such matter becomes a gas of nuclei and electrons which rise into the air due to the extremely high temperature or bond to each other as they cool. The matter vaporized this way is immediately a plasma in a state of maximum entropy and this state steadily reduces via the factor of passing time due to natural processes in the biosphere and the effects of physics at normal temperatures and pressures.
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