The release of corporate results also triggered sharp moves upward, including Dialog Semiconductor, which jumped 7.9 percent.
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I'm actually surprised to see that he moves upward with a fairly consistent velocity—it's almost a straight line.
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And history shows that when the stock market moves upward at such a quick pace, this momentum typically keeps going.
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Hot on the heels of bitcoin surging to multi-month highs, other major cryptocurrencies are also posting big moves upward.
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The stock has sat at around the same level for most of May, though it began making moves upward near the end.
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The strong moves upward mirrored that of Sprint, which saw its own stock on Wall Street gain a whopping 77.7% on Tuesday.
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"One of our theories is that because there is no longer the force of gravity pulling the brain down, the brain moves upward," she says.
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Physiological needs (such as food, water and shelter) form the foundational row of the pyramid, which then moves upward to safety, social belonging and self-esteem (that is, status and importance).
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The moves upward on Wall Street came as the positive trade sentiment overshadowed concerns over an impeachment inquiry into Trump that was announced by U.S. House Speaker Nancy Pelosi on Tuesday.
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The moves upward on the mainland came as the World Health Organization said Wednesday the number of daily new coronavirus cases outside China exceeded those inside the country for the first time.
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In "Larry's Garden: Winter" (2007), he uses thick, curving lines suggesting stems, branches, and vines to draw attention to the verticality of dormant plants, suggesting that, in spite of winter, a garden still moves upward.
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They usually occur in areas with large amounts of clay in the soil; as soil is deposited into a hole below, an arched cavity is created just beneath the surface that moves upward as more soil is eroded.
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Hong Kong's Hang Seng index also advanced 0.75%, as of its final hour of trading.. The moves upward on the mainland came despite a private survey released Monday that showed factory activity in China slumping to a record low in February.
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Plopping the video into the software program, I get this plot of position (height in meters) as a function of time (in seconds): You can see that the drone starts at rest and moves upward with an acceleration of 20.504 m/s23.54.
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This is the point when the pitcher bends the throwing arm at the elbow, and the hand moves upward, finishing in front of the pitcher's face.
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A two- way valve (gray) moves downward to allow pressurized air to pass through the regenerator where it is preheated. The air then enters the space below the piston, which is an externally heated expansion-chamber. The air expands and does work on the piston as it moves upward. After the expansion stroke, the two-way valve moves upward, thus closing off the tank and opening the exhaust port.
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The phase velocity and group velocity found from the dispersion relation predict the unusual property that they are perpendicular and that the vertical components of the phase and group velocities have opposite sign: if a wavepacket moves upward to the right, the crests move downward to the right.
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The ascent occurs in two phases. During the first phase, the dragonet pair moves upward about fifteen centimeters and rests for around five seconds. Then it proceeds with its second rise. During this second phase of the ascent, the male and female flex their bodies and move their genital papillae toward each other.
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In the double toggle jaw crushers, the oscillating motion of the swing jaw is caused by the vertical motion of the pitman. The pitman moves up and down. The swing jaw closes, i.e., it moves towards the fixed jaw when the pitman moves upward and opens during the downward motion of the pitman.
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This needle is held in the fuel flow orifice. The manifold vacuum causes this piston to rise allowing more fuel into the airflow. The SU's dashpot has a fixed hydraulic piston, damping the main piston as it moves upward. A valve in the piston disables the damping as the main piston returns.
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Further, the effect of mandating a higher price transfers some of the consumer surplus to producer surplus, while creating a deadweight loss as the price moves upward from the equilibrium price. A price floor may lead to market failure if the market is not able to allocate scarce resources in an efficient manner.
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Rendering of an Ericsson engine. A cold gaseous working fluid, such as atmospheric air (shown in blue), enters the cylinder via a non-return valve at the top-right. The air is compressed by the piston (black) as the piston moves upward. The compressed air is stored in the pneumatic tank (at left).
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In turn, precipitation can enhance the temperature and dewpoint contrast along a frontal boundary. Passing weather fronts often result in sudden changes in environmental temperature, and in turn the humidity and pressure in the air at ground level. Warm fronts occur where warm air pushes out a previously extant cold air mass. The warm air overrides the cooler air and moves upward dud .
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As northern regions of North America grow warmer, the cabbage looper gradually moves upward, only migrating if the region is above . During summer, it is less commonly found in southern regions, due to high temperatures. Similar to the monarch butterfly, populations presumably migrate in groups, as there is little genetic difference between source and migrating populations. Similar seasonal distributions were found in Europe.
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Spinous cells serve “as a physical and biological barrier to the environment, preventing penetration by irritants and allergens and loss of water while maintaining internal homeostasis. They accomplish this in two ways. First, they are keratinocytes (keratin cells) whose primary function is to produce keratin, a strong structural protein. The keratin accumulates within each spinous cell as it moves upward through the epidermis layers, until the cell is almost completely filled with hardening keratin (keratinisation).
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Thunderstorms result from the rapid upward movement of warm, moist air, sometimes along a front. As the warm, moist air moves upward, it cools, condenses, and forms a cumulonimbus cloud that can reach heights of over . As the rising air reaches its dew point temperature, water vapor condenses into water droplets or ice, reducing pressure locally within the thunderstorm cell. Any precipitation falls the long distance through the clouds towards the Earth's surface.
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The sheet-like stratus clouds are almost uniformly horizontal, covering large areas but having relatively shallow depth of . These clouds begin to form when wind mixes moisture from the ocean surface into the air. The air cools and expands as it is mixed and moves upward, and this cooling increases the relative humidity. When the relative humidity reaches 100%, the water vapor condenses into liquid water droplets and the clouds begin to form.
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The hun is virile, independent and perpetual, and as such it never allows itself to be limited in matter. Otherwise said, the po is the "earthly" (di) soul that goes downward, while the hun is the "heavenly" (tian) soul that moves upward. To extend life to its full potential the human shen must be cultivated, resulting in ever clearer, more luminous states of being. It can transform in the pure intelligent breath of deities.
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The depth, shape and size of a basin depend on tectonics, movements within the Earth's lithosphere. Where the lithosphere moves upward (tectonic uplift), land eventually rises above sea level and the area becomes a source for new sediment as erosion removes material. Where the lithosphere moves downward (tectonic subsidence), a basin forms and sediments are deposited. A type of basin formed by the moving apart of two pieces of a continent is called a rift basin.
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As tides interact with varying bathymetry and wind mixes with surface water, internal waves are created. An internal wave is a gravity wave that moves along density stratification within the ocean. When a water parcel encounters a different density it oscillates and creates internal waves. While internal waves generally have a lower frequency than surface waves, they often form as a single wave that breaks into multiple waves as it hits a slope and moves upward.
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The cleaning needle on the Svea 123R model has two small toothed cogs that face each other, which cleans the burner jet from both the inside and outside when using the stove. The cleaning needle moves upward and downward when the spindle is turned; when the spindle is fully opened, the needle clears the burner jet's opening. As the spindle is closed, the needle retracts into the burner housing. In this way, any soot that may clog the burner jet is expelled.
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As the basilar membrane moves upward, the cilia move in the direction causing opening of the mechanically gated potassium channel. The influx of potassium ions leads to depolarization. On the contrary, the cilia move the other way as the basilar membrane moves down, closing more mechanically gated potassium channels and leading to hyperpolarization. Depolarization will open the voltage gated calcium channel, releasing neurotransmitter (glutamate) at the nerve ending, acting on the spiral ganglion cell, the primary auditory neurons, making them more likely to spike.
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Typical countercurrent-flow spray tower. A spray tower (or spray column or spray chamber) is gas-liquid contactor used to achieve mass and heat transfer between a continuous gas phase (that can contain dispersed solid particles) and a dispersed liquid phase. It consists of an empty cylindrical vessel made of steel or plastic, and nozzles that spray liquid into the vessel. The inlet gas stream usually enters at the bottom of the tower and moves upward, while the liquid is sprayed downward from one or more levels.
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By contrast, flows and suspensions are said to fluidized when the fluid moves upward through the grains, thereby temporarily suspending them. Most flows are liquefied, and many references to fluidized sediment gravity flows are in fact incorrect and actually refer to liquified flows. Because fluid is displaced upward in these types of flows, dewatering features such as dish structures, pillars, pipes and dikes are common. Lowe, D.R. (1982), Sediment gravity flows: II. Depositional models with special reference to the deposits of high-density turbidity currents, Journal of Sedimentology, Society of Economic Paleontologists and Mineralogists, v.
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65 The legs move alternately, with one leg kicking downward while the other leg moves upward. While the legs provide only a small part of the overall speed, they are important to stabilize the body position. This lack of balance is apparent when using a pull buoy to neutralize the leg action. The leg in the initial position bends very slightly at the knees, and then kicks the lower leg and the foot downwards similar to the "straight-ahead" kick formerly used in American football (before the advent of the "soccer-style" kick).
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During a positive rolling motion, the left wing moves upward. If an aircraft were somehow suspended in air with no motion other than a positive roll, then from the point of view of the left wing, air will be coming from above and striking the upper surface of the wing. Thus, the left wing will experience a small amount of oncoming airflow merely from the rolling motion. This can be conceptualized as a vector originating from the left wing and pointing towards the oncoming air during the positive roll, i.e.
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281x281px Compressional stress thickens and strengthens the overlying rock, this resists the rock salt from piercing up and slows down the formation of a diapir, except when an anticline formed from compression force is seriously eroded to great depth. In the case where there are preexisting salt diapir structures that are mechanically weaker, the diapirs are reactivated during regional compression, rock salt then moves upward and is cut off from the source layer. For another case of no preexisting rock salt diapirs, salt mainly acts as a lubricant to form décollement.
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Diagram of air current in a supercell Hook echoes are a reflection of the movement of air inside and around a supercell thunderstorm. Ahead of the base of the storm, the inflow from the environment is sucked in by the instability of the air mass. As it moves upward, it cools slower than the cloud environment, because it mixes very little with it, creating an echo free tube which ends at higher levels to form a bounded weak echo region or BWER. At the same time, a mid- level flow of cool and drier air enters the thunderstorm cloud.
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Example of pipette held by robotic hand Liquid handling robot capable of reverse pipetting by means of manual pipette In reverse pipetting, the volume aspirated to the tip is bigger than the volume delivered to the receiving vessel. The excess of volume compensates for the liquid that remains as film inside the tip during dispensing. Liquid aspiration is achieved by creating vacuum by means of the vertical travel of a metal or ceramic piston within an airtight sleeve. As the piston moves upward, driven by the depression of the plunger, a vacuum is created in the space left vacant by the piston.
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The combustion gases expand irreversibly due to the leftover pressure—in excess of back pressure, the gauge pressure on the exhaust port—; this is called the blowdown. # Exhaust: The exhaust valve remains open while the piston moves upward expelling the combustion gases. For naturally aspirated engines a small part of the combustion gases may remain in the cylinder during normal operation because the piston does not close the combustion chamber completely; these gases dissolve in the next charge. At the end of this stroke, the exhaust valve closes, the intake valve opens, and the sequence repeats in the next cycle.
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When these cords are pulled, the bottom of the blind moves upward, causing the lowest slats to press the underside of the next highest slat as the blind is raised. A modern variation of the lift cords combines them with the rotational cords in slots on the two edges of each slat. This avoids the slots otherwise required to allow a slat to rotate despite a lift cord passing through it, thus decreasing the amount of light passing through a closed blind. Slat width can be between 16 and 120 mm, with 25 mm being a common width.
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The transition from the rusticated masonry of the ground floor to the more delicately refined stonework of the third floor makes the building seem lighter and taller as the eye moves upward to the massive cornice that caps and clearly defines the building's outline. Michelozzo was influenced in his design of the palace by both classical Roman and Brunelleschian principles. During the Renaissance revival of classical culture, ancient Roman elements were often replicated in architecture, both built and imagined in paintings. In the Palazzo Medici Riccardi, the rusticated masonry and the cornice had precedents in Roman practice, yet in totality it looks distinctly Florentine, unlike any known Roman building.
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The self ignition is due to the heat produced from the compression of the air/fuel mix, and the catalytic reaction of the platinum element in the glow plug and the methanol in the fuel and does not depend in any way upon the continued use of the battery. Fuel intake to the engine is controlled by a simple needle valve and venturi system. Fuel/air mixture intake to the crankcase is controlled via a reed valve or rotary valve depending on the engine design. In a reed valve engine, the valve is drawn open by suction as the piston moves upward on the compression stroke.
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Another manifestation of the problem occurs when the amount of airflow over the wing becomes so great that the force generated by the ailerons is enough to twist the wing itself, due to insufficient torsional stiffness of the wing structure. For instance when the aileron is deflected upwards in order to make that wing move down, the wing twists in the opposite direction. The net result is that the airflow is directed down instead of up and the wing moves upward, opposite of what was expected. This form of control reversal is often lumped in with a number of "high speed" effects as compressibility.
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For a candle to burn, a heat source (commonly a naked flame from a match or lighter) is used to light the candle's wick, which melts and vaporizes a small amount of fuel (the wax). Once vaporized, the fuel combines with oxygen in the atmosphere to ignite and form a constant flame. This flame provides sufficient heat to keep the candle burning via a self-sustaining chain of events: the heat of the flame melts the top of the mass of solid fuel; the liquefied fuel then moves upward through the wick via capillary action; the liquefied fuel finally vaporizes to burn within the candle's flame. As the fuel (wax) is melted and burned, the candle becomes shorter.
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The picking technique of gypsy jazz has been describedMichael Horowitz: Gypsy Picking as similar to economy picking, but with the further requirement that when the pattern switches from string to string in either direction, a rest stroke is performed. For example, on switching from the G to the B string, the plectrum moves in the same direction and comes to rest on the E string. However, on switching from the B to the G string, the plectrum moves upward and executes a down stroke on the G string, again coming to rest on the B string. This technique was employed by gypsy guitarist Django Reinhardt and has been preserved by his successors.
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Rumford’s innovation was to separate the combustion chambers for the limestone and the fuel. In previous designs, the fuel (traditionally wood or charcoal, later coal) was mixed with the limestone before burning, which meant that the quicklime end product was contaminated with ash and had to be laboriously cleaned. By separating the two it was possible to produce large quantities of high-quality quicklime for the booming 19th-century European construction industry. A Rumford furnace at the Rüdersdorf Museum Park near Berlin In a Rumford furnace, fuel compartments surround the actual combustion chamber, each one being connected to it by a single transverse channel through which the hot air produced by the burning fuel flows into the stack and moves upward through the pile of limestone.
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A schematic visual model of oxygen-binding process, showing all four monomers and hemes, and protein chains only as diagrammatic coils, to facilitate visualization into the molecule. Oxygen is not shown in this model, but, for each of the iron atoms, it binds to the iron (red sphere) in the flat heme. For example, in the upper-left of the four hemes shown, oxygen binds at the left of the iron atom shown in the upper-left of diagram. This causes the iron atom to move backward into the heme that holds it (the iron moves upward as it binds oxygen, in this illustration), tugging the histidine residue (modeled as a red pentagon on the right of the iron) closer, as it does.
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Example of pipette held by robotic hand Liquid handling robot capable of forward pipetting by means of manual pipette In forward pipetting, an exactly set volume of liquid is aspired to the tip and then it is delivered to a new vessel. This is achieved by creating vacuum by means of the vertical travel of a metal or ceramic piston within an airtight sleeve. As the piston moves upward, driven by the depression of the plunger, a vacuum is created in the space left vacant by the piston. Air from the tip rises to fill the space left vacant, and the tip air is then replaced by the liquid, which is drawn up into the tip and thus available for transport and dispensing elsewhere.
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The chimney mass containing four fireplaces—one in the billiards room, playroom, living room and master bedroom—and the main stairway from the entrance hall to the second floor living and dining rooms rise through the center of the house, from which the rest of the building radiates. The chimney mass is constructed of the same brick and limestone as the exterior. The front door and main entrance is partially hidden on the northwest side of the building beneath an overhanging balcony in order to create a sense of privacy and protection for the family. The entrance hall itself is low-ceilinged and dark, but the stairs to the second floor create a sense of anticipation as the visitor moves upward.
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If a fluid is compressible like air, the criterion for dynamic stability instead involves potential density, the density of the fluid at a fixed reference pressure. For an ideal gas (see gas laws), the stability criterion for an air column is that potential temperature increases monotonically with height. To understand this, consider dry convection in the atmosphere, where the vertical variation in pressure is substantial and adiabatic temperature change is important: As a parcel of air moves upward, the ambient pressure drops, causing the parcel to expand. Some of the internal energy of the parcel is used up in doing the work required to expand against the atmospheric pressure, so the temperature of the parcel drops, even though it has not lost any heat.
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Schematic representation of granular binding: a moving head a) selectively binds (by dropping glue or by laser sintering) the surface of a powder bed e); a moving platform f) progressively lowers the bed and the solidified object d) rests inside the unbinded powder. New powder is continuously added to the bed from a powder reservoir c) by means of a leveling mechanism b) Another 3D printing approach is the selective fusing of materials in a granular bed. The technique fuses parts of the layer and then moves upward in the working area, adding another layer of granules and repeating the process until the piece has built up. This process uses the unfused media to support overhangs and thin walls in the part being produced, which reduces the need for temporary auxiliary supports for the piece.
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For instance, the following moves upward continuously, ending in octave 5: :Octave 2 C C D E F G A B C D E F G A B C D E F G A B B C C The rule for 4ths and 5ths is more conservative. Save for an octave sign specifying otherwise, any melodic leap of a 4th or 5th stays in the same octave as the previous note.Ibid. pp. 7. For instance, this always stays within Octave 2: :Octave 2 C G D A E B F C G D A E Because of the use of octave marks, clef symbols are not required in braille music. On occasion, clef symbols (bass clef, treble clef, or other) will be given so the visually impaired musician will be aware of every detail of the print score.
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The third ring is an oil scraper ring whose function is to scrape the majority of the oil film off of the cylinder wall as the piston descends, to prevent oil being exposed to combustion heat and contaminating the upcoming round of fuel/air. This "oil scraping" also provides a key heat removal step for the cylinder walls and piston skirts, the oil film is renewed as the piston moves upward after BDC. The connecting rods are of forged aluminum and do provide some shock damping, which is why aluminum is used in place of titanium, because titanium connecting rods transmit too much of the combustion impulse to the big-end rod bearings, endangering the bearings and thus the crankshaft and block. Each con rod has two bolts, shell bearings for the big end while the pin runs directly in the rod.
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In the first move, the hand sweeps in from the shooter's side to a point just beneath the gun butt, and without stopping, then changes direction and moves upward to scoop the gun up out of the holster. To accomplish this, as the student moves his hand in toward the holstered gun, he shapes his hand exactly the way little children used to do when they were playing cops-and-robbers, and pretended that their right hands were guns: the index finger (the barrel) is pointed straight ahead, the thumb (the hammer) is cocked above the index finger, and the bottom three fingers (the gun butt) are pressed together and bent 90 degrees or more to the left. When the student's bent bottom-three fingers are located just below the gun butt, the student raises his elbow (thus his gun hand) straight up, and the bottom three fingers scoop up the gun butt and lift the gun out of the holster without attempting to wrap themselves around the butt. This first move is completed when the muzzle of the gun is an inch above the mouth of the holster.
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