Spirit lasted for six years, before getting stuck in a sand trap and losing energy.
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In the lab, rotating superfluids give rise to swirling vortices that keep going without ever losing energy.
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While she knew she possessed the skills to survive, she began to fear she was losing energy.
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The only way to stop losing energy is to stop moving, so the balls end up at rest again.
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As a result, charged particles—mainly electrons and protons—pour into the upper atmosphere, losing energy as they do so.
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After making landfall, they tend to dissipate quickly, losing energy and organization as they blow across cooler, drier, inland air masses.
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Researchers around the world are racing to produce a material that, at room temperature, conducts electricity without losing energy to resistance.
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However, if there were a large empty space inside the pyramid, the muons would pass through the void without losing energy.
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"We need to work together to draw lessons learnt and move forward instead of losing energy on finger pointing," he said.
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"We need to work together to draw lessons learnt and move forward instead of losing energy on finger pointing," he added.
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This Hawking radiation, while very weak, would ultimately mean that black holes very slowly wither and die, losing energy to this process.
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Or do you own energy audit to figure out areas where you are losing energy, or where your home could be more efficient.
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I had assumed Lane, older than a lot of his cohorts and maybe losing energy after the election, had moved onto something else.
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Keeping with the atom analogy, the axions can jump around the black hole, gaining and losing energy the same way that electrons do.
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Swiss voters on Sunday rejected a speedy exit from the nation's five nuclear power plants, as concerns over losing energy independence outweighed safety worries raised by the measure's proponents.
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By timing its pulses, the astronomers determined that the stars were losing energy and falling closer together at precisely the rate that would be expected if they were radiating gravitational waves.
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He threatened to prise the red jersey from Yates, but could not last the distance, losing energy in the final few kilometers to finish 10th, one minute 50 seconds behind De Marchi.
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ZURICH (Reuters) - Swiss voted in a referendum on Sunday to reject a speedy exit from the nation's five nuclear power plants, as concerns over losing energy independence outweighed safety worries raised by the measure's proponents.
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Power customers ranging from homes and hospitals to oil refineries and airports are at risk of losing energy at some point this summer because a majority of electric-generating stations in California use gas as their primary fuel.
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Meantime, elite runners at the Olympics will put on a pair of Nike's Air Zoom Alphafly NEXT%, which was designed with two "air pods" that are meant to add cushion, propel the runner and reduce the chances of an athlete losing energy.
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E.ON indicated 0.7 percent higher RWE indicated 0.6 percent lower Swiss voted in a referendum on Sunday to reject a speedy exit from the nation's five nuclear power plants, as concerns over losing energy independence outweighed safety worries raised by the measure's proponents.
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On Thursday, Mr. Trump reverted to his more severe language on the subject, departing from his prepared text at a rally in New Hampshire to again promise a border wall — a line he has said he uses when he senses his audience losing energy.
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Lounges like Spy Bar, which opened in SoHo in 1995, kept popping up as a counter-balance to the crazy club kid scene, which by that year had already started showing signs of losing energy, as Michael Alig got messier and more desperate for attention.
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In 1978, physicists indirectly confirmed the existence of gravitational waves: They discovered a binary pulsar (two rotating neutron stars revolving around each other at tremendous speed) whose shrinking orbit was losing energy precisely in the amounts relativity would predict if it were emitting gravitational waves.
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Most importantly for me, though, ended up being the Pulseboost HD's combination of less bulk, a stable base, and having the foot sit closer to the ground than in other Adidas shoes with Boost soles, so I could bob and weave without losing energy or my balance.
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" Emily Dean, the director of market development for the New York State Energy Research and Development Authority, said the state's program aims "to engage homeowners and provide them with quality information about their home, and pinpoint where and how the home is losing energy and which systems are working efficiently.
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"The idea is to avoid losing energy on texts that do not bring much, whereas what (President) Emmanuel Macron wants is that our presidency makes it possible to advance on specific topics," said a senior French diplomat ahead of the meeting on Friday and Saturday in the Brittany seaside resort of Dinard.
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As the electrons keep losing energy, less light is emitted, resulting in another dark space.
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Damped sine waves are commonly seen in science and engineering, wherever a harmonic oscillator is losing energy faster than it is being supplied.
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She is smart, calm, but very lonely. She can't communicate with the magic stone holders very well. Taizou has a crush on her. She is losing energy as she supports Lady Amaterasu.
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Losing energy is necessary for particles to collapse into dense structures beyond a certain point. Therefore dark matter collapses into huge but diffuse filaments and haloes, and not into stars or planets. Ordinary matter, which can lose energy by radiation, forms dense objects and also gas clouds when it collapses.
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At frequencies below 1 MHz the size of ordinary electrical circuits is so much smaller than the wavelength, that when considered as antennas they radiate an insignificant fraction of the power in them as radio waves. This explains why electrical circuits can be used with alternating current without losing energy as radio waves.
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Orbital decay for PSR1913+16: time shift in seconds, tracked over three decades.A figure that includes error bars is fig. 7 in According to general relativity, a binary system will emit gravitational waves, thereby losing energy. Due to this loss, the distance between the two orbiting bodies decreases, and so does their orbital period.
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This is described as dynamic (or ordinary) stability. A Maclaurin spheroid of eccentricity greater than 0.952887 is dynamically unstable. Even if it is composed of an inviscid fluid and has no means of losing energy, a suitable perturbation will grow (at least initially) exponentially. Dynamic instability implies secular instability (and secular stability implies dynamic stability).
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Approximately 98% of food consumed is used toward maintaining a steady body temperature. Only 2% is used toward building new tissue. The energy dynamic of this animal is characteristic of rodents and mammals that are constantly losing energy through respiratory heat loss. Therefore, they need a high energy source to maintain a stable body temperature.
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Another important factor is internal construction. Some stealth aircraft have skin that is radar transparent or absorbing, behind which are structures termed reentrant triangles. Radar waves penetrating the skin get trapped in these structures, reflecting off the internal faces and losing energy. This method was first used on the Blackbird series: A-12, YF-12A, Lockheed SR-71 Blackbird.
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An assortment of energy- efficient semiconductor (LED) lamps for commercial and residential lighting use. LED lamps use at least 75% less energy, and last 25 times longer, than traditional incandescent light bulbs. Homeowners implementing ECMs in their residential buildings often start with an energy audit. This is a way homeowners look at what areas of their homes are using, and possibly losing energy.
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The isotopes of nickel range in atomic weight from 48 u () to 78 u (). Naturally occurring nickel is composed of five stable isotopes; , , , and , with being the most abundant (68.077% natural abundance). Isotopes heavier than cannot be formed by nuclear fusion without losing energy. Nickel-62 has the highest mean nuclear binding energy per nucleon of any nuclide, at 8.7946 MeV/nucleon.
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Rotating black holes have two temperature states they can exist in: heating (losing energy) and cooling. In 1989, Paul Davies argued that the transition between the two states occurs when the square of the black hole's mass-to-angular-momentum ratio, in Planck units, equals the golden ratio. This claim was later found to be incorrect and in contradiction with Davies' earlier work.
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While some runners jog up and down, losing energy, Pistorius directs energy forward, looking somewhat like he is rolling on wheels. He also compensates for the adjustments ankles make on the turns, breaking the curves into short, straight lines. According to his coach Ampie Louw, Pistorius may be able to use the inward lean to generate force and come out of a turn going faster.
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"Proposal for the measurement of the resonant Stark effect by photon correlation techniques". Journal of Physics B: Atomic and Molecular Physics 9 (4): L43. doi:10.1088/0022-3700/9/4/001 More processes may occur when a substance undergoes internal energy transitions before re- emitting the energy from the absorption event. Electrons change energy states by either resonantly gaining energy from absorption of a photon or losing energy by emitting photons.
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Moore describes the chord changes as: "addictive and harmonically ambiguous vamp for the entire montuno section. Arguments could be made for various keys, but to me it sounds like bIII – IV – I – bVI in A. Like the best rock vamps, it never quite resolves, allowing for endless repetitions without losing energy."Moore, Kevin (2010). Beyond Salsa Piano: The Cuban Timba Revolution; v 3: Cuban Piano Tumbaos 1960-1979 p. 24.
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To her surprise, the group offer to take her to a shelter where she will be safe. This act of kindness gives her hope for the planet. Meanwhile, scientists have realized that the Sun is losing energy, but not mass, to the Sun-Eater. This will cause the Sun to go nova and the explosion will catapult the Sun-Eater into another solar system, where it will consume another sun.
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In the game, players enter the bodies of animals, gaining their abilities in order to solve puzzles and defeat enemies. Space Station Silicon Valley is a platform game that is viewed from a third- person perspective. Players traverse several different environments to advance through the game. During the game, players control Evo—a robot who is reduced to a crawling microchip during a ship crash, and is losing energy at a steady rate without protection.
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In order to keep the wind moving through the turbine, there has to be some wind movement, however small, on the other side with some wind speed greater than zero. Betz's law shows that as air flows through a certain area, and as wind speed slows from losing energy to extraction from a turbine, the airflow must distribute to a wider area. As a result, geometry limits any turbine efficiency to a maximum of 59.3%.
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With three black holes in close proximity, the orbits are chaotic and allow three additional energy loss mechanisms: # The black holes orbit through a substantially larger volume of the galaxy, interacting with (and losing energy to) a much greater amount of matter, # The orbits can become highly eccentric, allowing energy loss by gravitational radiation at the point of closest approach, and # Two of the black holes can transfer energy to the third, possibly ejecting it.
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If an orbit is about a planetary body with significant atmosphere, its orbit can decay because of drag. Particularly at each periapsis, the object experiences atmospheric drag, losing energy. Each time, the orbit grows less eccentric (more circular) because the object loses kinetic energy precisely when that energy is at its maximum. This is similar to the effect of slowing a pendulum at its lowest point; the highest point of the pendulum's swing becomes lower.
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This gives rise to the majority of controlled fusion concepts. Even if this temperature is reached, the gas will be constantly losing energy to its surroundings (cooling off). This gives rise to the concept of the "confinement time", the amount of time the plasma is maintained at the required temperature. However, the fusion reactions might deposit their energy back into the plasma, heating it back up, which is a function of the density of the plasma.
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Marta López is a female housemate who entered on Day 1 into the color house. She had an affair with Joaquín but he didn't anything with her. She has the record for Gran Hermano of being nominated for ten times, she survived 9 times. She finally was the last person to be evicted on Day 138 with 66,1% She was a contender to win, but When the contest advanced she started losing energy and going out.
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Raman spectroscopy relies on inelastic scattering events of monochromatic light to produce a spectrum characteristic of a sample. The technique usually uses the red- shifted photons produced by monochromatic light losing energy to a vibrational motion within a molecule. The shift in colour and the probability of inelastic scatter is characteristic of the molecule that scatters the photon. A molecule may produce over 10 to 20 major lines, though this is restricted only by the number of bonds and symmetry constraints.
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Wormit water reservoir was built in 1923 in anticipation of the population of the town growing, but war intervened and the reservoir was eventually decommissioned due to costs. Trevor Cox, a professor of acoustic engineering at the University of Salford, identified the reservoir as one of the "strangest sounding places in the UK". It is a large concrete box long, wide and high. In a normal room, sounds die away quickly due to sound waves reflecting in to the walls, losing energy.
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In the original Nègre air engine, one piston compresses air from the atmosphere to mix with the stored compressed air (which will cool drastically as it expands). This mixture drives the second piston, providing the actual engine power. MDI's engine works with constant torque, and the only way to change the torque to the wheels is to use a pulley transmission of constant variation, losing some efficiency. When vehicle is stopped, MDI's engine had to be on and working, losing energy.
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Tired light theories challenge the common interpretation of Hubble's Law as a sign the universe is expanding. It was proposed by Fritz Zwicky in 1929. The basic proposal amounted to light losing energy ("getting tired") due to the distance it traveled rather than any metric expansion or physical recession of sources from observers. A traditional explanation of this effect was to attribute a dynamical friction to photons; the photons' gravitational interactions with stars and other material will progressively reduce their momentum, thus producing a redshift.
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A single, consensus definition of a soliton is difficult to find. ascribe three properties to solitons: # They are of permanent form; # They are localized within a region; # They can interact with other solitons, and emerge from the collision unchanged, except for a phase shift. More formal definitions exist, but they require substantial mathematics. Moreover, some scientists use the term soliton for phenomena that do not quite have these three properties (for instance, the 'light bullets' of nonlinear optics are often called solitons despite losing energy during interaction).
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Investigators made several hypotheses about Flight 1501. Mechanical failure, terrorism, bird strike and weather-related factors were quickly ruled out. They then focused their attention on two strong hypotheses. The first hypothesis was that the pilot flying was the captain and that he had accidentally selected the reverse beta range for the propellers with the intention of losing energy to correct the airspeed, regain the descent path or shorten the landing as much as possible, as the reverse beta mode acted as a powerful brake.
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After the discovery of the redshift-distance relationship (deduced by the inverse correlation of galactic brightness to redshift) by Vesto Slipher and Edwin Hubble, the astrophysicist and Roman Catholic priest Georges Lemaître interpreted the redshift as proof of universal expansion and thus a Big Bang, whereas Fritz Zwicky proposed that the redshift was caused by the photons losing energy as they passed through the matter and/or forces in intergalactic space. Zwicky's proposal would come to be termed 'tired light'—a term invented by the major Big Bang proponent Richard Tolman.
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Astronomers believe that supermassive black holes (SMBHs) can be ejected from the centers of galaxies by gravitational wave recoil. This happens when two SMBHs in a binary system coalesce, after losing energy in the form of gravitational waves. Because the gravitational waves are not emitted isotropically, some momentum is imparted to the coalescing black holes, and they feel a recoil, or "kick," at the moment of coalescence. Computer simulations suggest that the kick can be as large as 10^5 km/s, which exceeds escape velocity from the centres of even the most massive galaxies.
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Each of the games in F-Zero series requires the player to beat opponents to the finish line while avoiding obstacles such as land mines and slip zones. The games usually require a mixture of memorization of the tracks and quick reflexes for its fast-paced racing gameplay. In F-Zero and F-Zero: Maximum Velocity, a speed boost is given to the player for each lap completed. Starting with F-Zero X, players may execute speed boosts if they have finished at least one lap, but now in exchange for losing energy when boosting.
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With each level, the character's health bar increases, other attributes such as range improve, and the character also becomes invulnerable for a few seconds. Along the way, different weapon and armor upgrades for each character may also be picked up. King of Dragons features a simple control system that consists of a single attack button, and a jump button. By pressing both buttons, the character unleashes a magical attack that strikes all enemies in screen (its strength varies according to the character used) at the expense of losing energy.
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The game features 4 worlds, each divided into 4 levels playable on 5 difficulty levels or "belts" that the player can play through more or less seamlessly. There are no bombs, lives as such, if the player loses a life, one of 6 granted per world, it immediately is lost without losing energy giving a temporary repulsion to the enemies. Higher points can be reached by playing on more difficult settings and attaining combo bonuses by stringing together kills of the same enemy colour, which is made difficult as one needs to allow other enemy types to populate the screen to achieve this.
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The study over three decades of the binary pulsar 1913+16, whose discovery was awarded the 1993 Nobel Prize in Physics, led to indirect evidence of the existence of gravitational waves. The observed evolution over time of this binary pulsar's orbital period is in excellent agreement with the hypothesis that the system is losing energy by emitting gravitational waves. The rotation motion is accelerating (its period, reported in 2004 to be 7.75 hours, is decreasing by 76.5 microseconds per year) and the two compact stars get closer by about three meters each year. They should coalesce in about 300 million years.
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Interactions with blue-shifted cosmic microwave background radiation limit the distance that these particles can travel before losing energy; this is known as the Greisen–Zatsepin–Kuzmin limit or GZK limit. The source of such high energy particles has been a mystery for many years. Recent results from the Pierre Auger Observatory show that ultra-high-energy cosmic ray arrival directions appear to be correlated with extragalactic supermassive black holes at the center of nearby galaxies called active galactic nuclei (AGN). However, since the angular correlation scale used is fairly large (3.1°) these results do not unambiguously identify the origins of such cosmic ray particles.
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Now there are two photons, doubling the chance that they will cause the same reaction in other atoms. As long as there is a large population of atoms with electrons in the matching energy state, the result is a chain reaction that releases a burst of single-frequency, highly collimated light. The process of gaining and losing energy is normally random, so under typical conditions, a large group of atoms is unlikely to be in a suitable state for this reaction. Lasers depend on some sort of setup that results in many electrons being in the desired states, a condition known as a population inversion.
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Skeptics , however point out that it is generally believed that a controlled, sustained chain reaction is not possible with . It can undergo fission when impacted by an energetic neutron with over 1 MeV of kinetic energy. But the high-energy neutrons produced by fission (after quickly losing energy by inelastic scattering), are not, themselves, sufficient to induce enough successive fissions in to create a critical system (one in which the number of neutrons created by fission is equal to the number absorbed). Instead, bombarding with neutrons below the 1 MeV fission threshold causes it to absorb them without fissioning (becoming ) and decay by beta emission to (which is itself fissile).
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If the slope of the function is negative, the number of particles with velocities slightly less than the wave phase velocity is greater than the number of particles with velocities slightly greater. Hence, there are more particles gaining energy from the wave than losing to the wave, which leads to wave damping. If, however, the slope of the function is positive, the number of particles with velocities slightly less than the wave phase velocity is smaller than the number of particles with velocities slightly greater. Hence, there are more particles losing energy to the wave than gaining from the wave, which leads to a resultant increase in the wave energy.
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The inelastic mean free path (IMFP) is an index of how far an electron on average travels through a solid before losing energy. Universal curve for the electron inelastic mean free path in elements based on equation (5) in. If a monochromatic primary beam of electrons is incident on a solid surface, the majority of incident electrons lose their energy because they interact strongly with matter, leading to plasmon excitation, electron-hole pair formation, and vibrational excitation.R. F. Egerton (1996) Electron energy- loss spectroscopy in the electron microscope (Second Edition, Plenum Press, NY) The intensity of the primary electrons, I_0, is damped as a function of the distance, d, into the solid.
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NEC has sold its sixty-year-old lighting business in April 2019. As of September 2019, NEC was the largest non-Chinese supplier of AI surveillance technology in the world. In the first half of 2020, NEC sold a majority stake in NEC Display Solutions, the professional display subsidiary, to Sharp Corporation and decided to gradually curtail the money-losing energy storage business throughout the decade. Upon the suggested banning of Huawei's 5G equipment led by the United States in 2020, being a diminished supplier, NEC was galvanized to ramp up its relatively small 5G network business to fill the void in the telecommunications equipment markets of the United States and the United Kingdom.
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It continues to orbit the accretor in the plane of the orbital axis, colliding with other accreting material en route, thereby losing energy, and in so doing forming an accretion disk, which also lies on the plane of the orbital axis. In an X-ray burster, this material accretes onto the surface of the neutron star, where it forms a dense layer. After mere hours of accumulation and gravitational compression, nuclear fusion starts in this matter. This begins as a stable process, the hot CNO cycle, however, continued accretion causes a degenerate shell of matter, in which the temperature rises (greater than 1 × 109 kelvin) but this does not alleviate thermodynamic conditions.
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After losing energy as they penetrate tissue, the neutrons are captured by the 10B, which subsequently emits high-energy alpha particles that kill adjacent cells that have taken up sufficient quantities of 10B. All of the clinical experience to date with NCT is with the non-radioactive isotope boron-10, and this is known as boron neutron capture therapy (BNCT). The use of other non-radioactive isotopes, such as gadolinium, has been limited to experimental studies and has not been used clinically. BNCT has been evaluated clinically as an alternative to conventional radiation therapy for the treatment of high-grade gliomas, meningiomas, and recurrent, locally advanced cancers of the head and neck region and superficial cutaneous and extracutaneous melanomas.
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If dark matter is composed of weakly-interacting particles, an obvious question is whether it can form objects equivalent to planets, stars, or black holes. Historically, the answer has been it cannot, because of two factors: ;It lacks an efficient means to lose energy: Ordinary matter forms dense objects because it has numerous ways to lose energy. Losing energy would be essential for object formation, because a particle that gains energy during compaction or falling "inward" under gravity, and cannot lose it any other way, will heat up and increase velocity and momentum. Dark matter appears to lack means to lose energy, simply because it is not capable of interacting strongly in other ways except through gravity.
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Putting together these two basic facts of general relativity and electrodynamics, we seem to encounter a paradox. For if we dropped a neutral particle and a charged particle together in a gravitational field, the charged particle should begin to radiate as it is accelerated under gravity, thereby losing energy and slowing relative to the neutral particle. Then a free-falling observer could distinguish free fall from the true absence of forces, because a charged particle in a free-falling laboratory would begin to be pulled upward relative to the neutral parts of the laboratory, even though no obvious electric fields were present. Equivalently, we can think about a charged particle at rest in a laboratory on the surface of the Earth.
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The mathematical theory of Landau damping is somewhat involved—see the section below. However, there is a simple physical interpretation [introduced in section 7.5 of with a caveat], which, though not strictly correct, helps to visualize this phenomenon. thumb It is possible to imagine Langmuir waves as waves in the sea, and the particles as surfers trying to catch the wave, all moving in the same direction. If the surfer is moving on the water surface at a velocity slightly less than the waves he will eventually be caught and pushed along the wave (gaining energy), while a surfer moving slightly faster than a wave will be pushing on the wave as he moves uphill (losing energy to the wave).
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This time (and later also in 1908) he rejectedMiller 1981, Secondary sources on relativity the possibility that energy carries mass and criticized the ether solution to compensate the above-mentioned problems: He also discussed two other unexplained effects: (1) non-conservation of mass implied by Lorentz's variable mass \gamma m, Abraham's theory of variable mass and Kaufmann's experiments on the mass of fast moving electrons and (2) the non- conservation of energy in the radium experiments of Madame Curie. It was Albert Einstein's concept of mass–energy equivalence (1905) that a body losing energy as radiation or heat was losing mass of amount m = E/c2 that resolvedDarrigol 2005, Secondary sources on relativity Poincaré's paradox, without using any compensating mechanism within the ether.. See also English translation. The Hertzian oscillator loses mass in the emission process, and momentum is conserved in any frame. However, concerning Poincaré's solution of the Center of Gravity problem, Einstein noted that Poincaré's formulation and his own from 1906 were mathematically equivalent.
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