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Rux joined "New Yorkers Against Fracking", organized by singer Natalie Merchant, calling for a fracking ban on natural gas drilling using hydraulic fracturing.
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Fracking is another term for hydraulic fracturing.
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Shale oil, in fossil fuel production, either a synthetic crude oil that is extracted from oil shale by means of pyrolysis or a naturally occurring crude oil that is extracted from underground shale deposits by means of fracking (hydraulic fracturing).
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Fracking is another term for hydraulic fracturing.
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The photo shows an 'anti frack' rally at Balcombe, which is an oil well in limestone that had no permission to hydraulically fracture the formation.
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Fracking is another term for hydraulic fracturing.
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The sand is commonly added to fracking fluids for the purpose of keeping unduced hydraulic fractures open.
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Fracking is another term for hydraulic fracturing.
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fracking, or hydraulic fracturing The cracking open of undergound rocks by introducing liquid at high pressure, especially to extract natural gas.
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Fracking is another term for hydraulic fracturing.
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Back to top The Application of Novel Radar Methods to the Study of PMSE , Phil Chilson Polar mesosphere summer echoes (PMSE) are strong radar echoes produced, as the name suggests, near the polar mesopause region during summer months.
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The mesopause is at the top of the mesosphere.
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Continued theoretical work concerning the photochemistry of minor constituents, the structure of mesopause environment at high latitudes and auroral and airglow spectroscopy including the chemical modeling of the polar mesosphere and stratosphere.
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The mesopause is at the top of the mesosphere.
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Eight-hour tidal component near mesopause Terdiurnal (8-hour) atmospheric tidal oscillations constitute a property of the wind field in the mesosphere and lower thermosphere at northern mid-latitudes.
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The mesopause is at the top of the mesosphere.
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The mesosphere extends from the upper limit of the stratosphere, around 80 kilometers (50 miles) above sea level to the mesopause, its upper boundary.
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The mesopause is at the top of the mesosphere.
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The top of the mesosphere is called the mesopause .
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The mesopause is at the top of the mesosphere.
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The top of the mesosphere, called the mesopause, is the coldest part of Earth's atmosphere with temperatures averaging about minus 130 degrees F (minus 90 C).
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The mesopause is at the top of the mesosphere.
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The upper boundary of the mesosphere is the mesopause, which can be the coldest naturally occurring place on Earth with temperatures below 130 F C .
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The mesopause is at the top of the mesosphere.
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To determine the sources of planetary scale perturbations in the mesosphere and lower thermosphere is one of the principal topics in the International Program PSMOS (Planetary Scale Mesopause Observing System) of the Scietific Commettee on Solar-Terrestrial Physics (SCOSTEP).
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The mesopause is at the top of the mesosphere.
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To find out how these southward winds are sustained throughout the summer we need to know more about mesosphere-mesopause wind speeds.
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The mesopause is at the top of the mesosphere.
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A new timing mission will make possible major advances in our understanding of strong gravitational fields and compact objects.
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Strong gravitational fields are capable of altering the rate of time passing.
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Among its predictions are that time runs more slowly in strong gravitational fields and the existence of gravitational lenses and gravitational waves .
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Strong gravitational fields are capable of altering the rate of time passing.
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Basically, a strong gravitational field actually slows down time.
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Strong gravitational fields are capable of altering the rate of time passing.
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Before matter passes the point of no return in a black hole it is crushed by the strong gravitational field;
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Strong gravitational fields are capable of altering the rate of time passing.
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But they are strong enough to alter the gravitational center of the earth.
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Strong gravitational fields are capable of altering the rate of time passing.
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D general relativistic hydrodynamics code, that is capable of simulating many astrophysical process involving strong, dynamical gravitational fields.
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Strong gravitational fields are capable of altering the rate of time passing.
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During this time, LUNA 22 would monitor radiation levels and micrometeoroid impact rates as well as map the lunar gravitational field.
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Strong gravitational fields are capable of altering the rate of time passing.
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For example, a light or radio wave just kissing the edge of the Sun's disc would have to pass through the Sun's strong gravitational field.
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Strong gravitational fields are capable of altering the rate of time passing.
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For instance, at times when the radio waves pass close to the other neutron star, they should be deflected by the star's gravitational field.
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Strong gravitational fields are capable of altering the rate of time passing.
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If you can engineer a very strong gravitational field, time also slows down, so to speak.
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Strong gravitational fields are capable of altering the rate of time passing.
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In 1936 Einstein predicted what an observer would see if a very faint object with a strong gravitational field such as a black hole passed in front of a faint star.
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Strong gravitational fields are capable of altering the rate of time passing.
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In cosmology, the role of the external agent is played by the strong and time-dependent gravitational field of the very early Universe.
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Strong gravitational fields are capable of altering the rate of time passing.
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It has a magnetic field about 14 times as strong as the Earth's, and a gravitational field 2.4 times as strong.
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Strong gravitational fields are capable of altering the rate of time passing.
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Since light ordinarily travels on a straight-line path, light follows a curved path if it passes through a strong gravitational field.
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Strong gravitational fields are capable of altering the rate of time passing.
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So with a discovery rate of one strong lens per hundred parallel fields, the 1000-2000 single-orbit F814W parallel fields per year will yield a few dozen new strong gravitational lenses per year.
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Strong gravitational fields are capable of altering the rate of time passing.
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Strong gravitational lensing drastically alters the shape of an object on the sky;
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Strong gravitational fields are capable of altering the rate of time passing.
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The distribution of the gas itself doesn't alter the gravitational field.)
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Strong gravitational fields are capable of altering the rate of time passing.
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The earth, uniform gravitational fields, gravitational redshift, and time dilation.
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Strong gravitational fields are capable of altering the rate of time passing.
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The stronger the gravitational potential (the closer the clock is to the source of gravitation), the slower time passes.
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Strong gravitational fields are capable of altering the rate of time passing.
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This constituted proof that a strong gravitational field slows down time processes.
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Strong gravitational fields are capable of altering the rate of time passing.
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This effect is due to the bending and focusing of light from distant objects when it passes through the strong gravitational fields of massive galaxies on its way to us.
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Strong gravitational fields are capable of altering the rate of time passing.
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We do not alter the behavior of sound waves or gravitational fields or neutrons;
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Strong gravitational fields are capable of altering the rate of time passing.
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Whenever the rate of information passing to a certain location in time and space is greater than the surrounding area, a magnetic or gravitational field will be present.
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Strong gravitational fields are capable of altering the rate of time passing.
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photons passing by a very strong gravitational field are redshifted as they lose energy.
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Strong gravitational fields are capable of altering the rate of time passing.
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Adsorption The surface retention of solid, liquid, or gas molecules, atoms, or ions by a solid, or liquid.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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Amorphous solids have no regular pattern for molecule, atom or ion locations.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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As in a solid, in a liquid, the attractive forces are strong enough to hold the molecules or atoms close together so they are not easily compressed and have a definite volume.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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Categories of Solids Based on Bonds that Hold the Solid Together Solids can be classified on the basis of the bonds that hold the atoms or molecules together.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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In a solid , the atoms and molecules are densely packed and held in place by intermolecular forces.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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In crystalline solids, the atoms, ions or molecules are arranged in an ordered and symmetrical pattern that is repeated over the entire crystal.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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In p-dichlorobenzene, weak intermolecular forces hold the molecules at their lattice sites within the solid structure, while strong covalent forces hold the atoms together in a p-dichlorobenzene molecule.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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The solute, in the case of solids, has its crystalline structure disintegrated as separate ions, atoms, and molecules form.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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When a pure crystalline solid is heated, the atoms, ions or molecules vibrate more and more rapidly until at a definite temperature the thermal mot ion of the particles becomes great enough to overcome the forces of attraction.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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While the intermolecular forces are strong enough to hold the molecules in place, molecular solids typically have lower melting and boiling points than metallic, ionic, or network atomic solids, which are held together by stronger bonds.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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compare and contrast these properties to gases 1.2 Describe the inter-atomic and intermolecular forces of atoms, molecules and ions of solids and liquids at the microscopic level and macroscopic level.
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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structures of solids, molecules, and atoms
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Solids are categorized by the forces holding the individual atoms, ions, or molecules together.
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A drop keel containing transducers for the measurement of plankton density and ocean currents can be lowered 3 ft below the bottom of the ship.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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Bottom density currents with particle settling .
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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Changes in density caused by wind and currents at the surface affects the deep-ocean currents.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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Deep ocean currents are generated by the sinking and upwelling of water, due to density differences driven by temperature and salinity (saltiness) contrasts.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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Density differences were probably caused by the upwelling of deep copepod aggregations from Juan de Fuca Strait.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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Formation and circulation of deep and bottom water in the world ocean.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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It also has transducers for measuring ocean currents, sub-bottom profiling, and deep water bathymetry.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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Just like there are currents in the ocean, our atmosphere has wind currents controlled by many of the same factors, including temperature differences, density differences, and the spin of the planet.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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Ocean currents, if cold, and clinging to the bottom.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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On the origins of deep and bottom waters of the Indian Ocean.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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The deep oceanic currents (not shown) are caused primarily by water density differences and in general return the (now coolder) water back towards the tropics.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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The deep-ocean currents differ from surface currents in that they are density driven.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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The waves and foam, the currents, and the deep ocean waters are not different.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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and influence from deep-ocean currents.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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at the bottom of the ocean where the in the great deep there is total darkness.
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Deep currents are caused by differences in density at the top and bottom of the ocean.
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As we now know, however, the sun, not the earth, is the center of the solar system.
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The sun is considered the center of the solar system.
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Copernicus placed the Sun at the center of the solar system.
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The sun is considered the center of the solar system.
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Discovery of the Sun as the center of the solar system is attributed to Copernicus.
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The sun is considered the center of the solar system.
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First, it was discovered that the Sun was the center of gravity of the Solar system;
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The sun is considered the center of the solar system.
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He considered the Copernican system, which modeled the Solar System with the Sun at the center, correct in its essence.
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The sun is considered the center of the solar system.
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In the heliocentric system , the Sun is considered to be the center of the solar system.
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The sun is considered the center of the solar system.
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Look at the solar system -- the sun is in the center.
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The sun is considered the center of the solar system.
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THE PROBLEM The sun is the center of our solar system.
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The sun is considered the center of the solar system.
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The sun stays in its position at the center of our solar system.
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The sun is considered the center of the solar system.
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The Earth moves and the Sun is the center of our solar system.
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The sun is considered the center of the solar system.
| 1entails
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The Sun is at the center of our solar system.
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The sun is considered the center of the solar system.
| 1entails
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The Sun is in the center of the solar system.
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The sun is considered the center of the solar system.
| 1entails
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The Sun is the star at the center of our Solar System.
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The sun is considered the center of the solar system.
| 1entails
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The earth is in the center of the solar system; the sun, moon and planets move around the earth.
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The sun is considered the center of the solar system.
| 0neutral
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The planets, asteroids, and comets travel around the Sun, the center of our Solar System.
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The sun is considered the center of the solar system.
| 1entails
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The sun is at the center of the solar system.
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The sun is considered the center of the solar system.
| 1entails
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The sun is explored as the center of the solar system.
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The sun is considered the center of the solar system.
| 1entails
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The sun is in the center of the solar system; the earth and other planets move around the sun.
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The sun is considered the center of the solar system.
| 1entails
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The sun is the center of our solar system;
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The sun is considered the center of the solar system.
| 1entails
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Today we think of the sun as being the center of the solar system.
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The sun is considered the center of the solar system.
| 1entails
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A genome is a person's entire set of genes.
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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A genome is defined as the complete set of genetic information in an organism.
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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A genome is merely the overall total of this genetic information.
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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A genome is the complete set of genetic information contained in a cell.
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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AH 314 As entire genomes of multiple multicellular organisms are sequenced and all of the estimated 50,000 to 100,000 human genes are identified, vast amounts of genetic information are obtained.
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A(n) genome is considered to be a person's entire genetic information.
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Database for soybean genetic information and genome mapping.
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A(n) genome is considered to be a person's entire genetic information.
| 0neutral
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Every cell (except the red blood cells) contain the entire human genome that is, all the genetic information necessary to build a human being.
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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Genome The entire collection of genetic information (contained in chromosomal DNA or RNA) in an organism.
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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Genome The total genetic information of a particular organism.
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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Genome The total genetic information possessed by an individual organism.
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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It contains information on what genetic engineering is, a bio-tech lexicon, why genetic engineering is advantageous to mankind, disavantages of genetic engineering, software related to genetic engineering, information about the sequencing of the entire human genome, and more.
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A(n) genome is considered to be a person's entire genetic information.
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The Human Genome Project may provide a way to determine if a person has a genetic disease but how that person and others use this information causes debate.
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A(n) genome is considered to be a person's entire genetic information.
| 0neutral
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The genome of an organism is composed of its entire genetic material.
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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The goal of The Human Genome project is to find the location of the 100,000 human genes and to read the entire genetic script--all 3 billion bits of information--by 2005.
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A(n) genome is considered to be a person's entire genetic information.
| 0neutral
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The totality of the genetic information of an organism is called genome .
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A(n) genome is considered to be a person's entire genetic information.
| 1entails
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