premise
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Blood flow to the skin increases, causing a decreased blood flow to the vital organs.
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Blood flow decrease when blood vessels constrict.
| 0neutral
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Blood flow to the skin increases, causing blood flow to decrease to the vital organs.
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Blood flow decrease when blood vessels constrict.
| 0neutral
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By constricting the blood vessels, cold decreases swelling by inhibiting blood flow to the injured area.
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Blood flow decrease when blood vessels constrict.
| 1entails
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Oxygen decreases, carbon dioxide increases, the blood becomes more acidic, the heart rate drops and blood vessels in the lung constrict," says Umlauf.
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Blood flow decrease when blood vessels constrict.
| 0neutral
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The increase is secondary to a gradual decrease in vessel resistance to blood flow throughout the pregnancy.
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Blood flow decrease when blood vessels constrict.
| 0neutral
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The increased blood flow to muscle decreases blood flow to baroreceptors.
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Blood flow decrease when blood vessels constrict.
| 0neutral
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This blood vessel constriction in the heart can cause decreased blood flow to the heart, which causes chest pain.
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Blood flow decrease when blood vessels constrict.
| 1entails
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Vasoconstriction (vessel narrowing or constricting) is a decrease in blood vessel diameter that will lead to a decrease in blood flow .
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Blood flow decrease when blood vessels constrict.
| 1entails
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When blood vessels constrict, the flow of blood is restricted or decreased, thus retaining body heat or increasing vascular resistance.
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Blood flow decrease when blood vessels constrict.
| 1entails
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An increase in the pressure of the gas might be caused by an increase in temperature (through heating the container of the gas) or by a decrease in volume (through moving a piston connected to the container).
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When gas particles heat up, pressure increase.
| 1entails
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As elevation increases, the pressure decreases.
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When gas particles heat up, pressure increase.
| 0neutral
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As the altitude increases, the pressure decreases.
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When gas particles heat up, pressure increase.
| 0neutral
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As the gas pressure increases, the gas conducts heat away from the wire, and the temperature and resistance both decrease.
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When gas particles heat up, pressure increase.
| 0neutral
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At the press of a button, gas pressure is increased or decreased, depending on need.
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When gas particles heat up, pressure increase.
| 0neutral
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Heating air will increase the pressure, while cooling air decreases pressure.
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When gas particles heat up, pressure increase.
| 1entails
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In particular, when the external pressure is increased the volume of the confined gas is decreased by the piston, and hence its pressure increases.
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When gas particles heat up, pressure increase.
| 0neutral
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Increasing the initial temperature causes a decrease in the calculated mean particle size, while an increase in pressure produces larger particles.
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When gas particles heat up, pressure increase.
| 0neutral
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It decreases with increasing pressure.
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When gas particles heat up, pressure increase.
| 0neutral
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Output at fixed input increases with increasing filling gas pressure and decreasing cooling gas temperature.
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When gas particles heat up, pressure increase.
| 0neutral
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Pressures in the Earth should increase the density and the heat in the Earth should decrease the density.
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When gas particles heat up, pressure increase.
| 0neutral
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Simply put, the increase or decrease of pressure around a gas will cause the volume of the gas to either decrease of increase respectively.
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When gas particles heat up, pressure increase.
| 0neutral
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Since decreasing the pressure on a gas increases its volume, as the tree rises to areas of decreased pressure, the blisters continue to inflate.
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When gas particles heat up, pressure increase.
| 0neutral
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The increase in pressure causes the volume of the gas inside the dropper to decrease.
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When gas particles heat up, pressure increase.
| 0neutral
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The pressure increase is related to the volume decrease of the gas in the syringe.
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When gas particles heat up, pressure increase.
| 0neutral
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The space between the particles of gas also decreases with increase in pressure.
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When gas particles heat up, pressure increase.
| 0neutral
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There, the velocity is increasing and the pressure is decreasing.
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When gas particles heat up, pressure increase.
| 0neutral
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This result is consistent with the atomic picture of a gas since decreasing (increasing) the volume of the gas increases (decreases) the number of molecules colliding with the side and hence increases (decreases) the pressure.
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When gas particles heat up, pressure increase.
| 0neutral
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and combinations of increases and decreases in pressure.
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When gas particles heat up, pressure increase.
| 0neutral
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as speed increases the pressure decreases.
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When gas particles heat up, pressure increase.
| 0neutral
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d) Decreasing the volume increases the pressure of the gas-phase species.
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When gas particles heat up, pressure increase.
| 0neutral
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decrease or increase in blood pressure;
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When gas particles heat up, pressure increase.
| 0neutral
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increase or decrease in blood pressure;
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When gas particles heat up, pressure increase.
| 0neutral
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Gemini has 10 times the light gathering power of the Hubble Space Telescope, and 4 times the power of the William Herschel Telescope, allowing astronomers to study much fainter (and hence, more distant) galaxies.
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Due to the time it takes for light to reach us, galaxies at the edge of the universe are distant in terms of space and time.
| 0neutral
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If the expansion of the universe is slowing down in time, then the expansion rate determined for very distant galaxies should be slower than for nearby galaxies.
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Due to the time it takes for light to reach us, galaxies at the edge of the universe are distant in terms of space and time.
| 0neutral
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Light takes more time than the age of the Universe to reach us from there.
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Due to the time it takes for light to reach us, galaxies at the edge of the universe are distant in terms of space and time.
| 0neutral
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The apparent faster than light motion we infer for the most distant quasars due to the geometry of the expansion of the universe at earlier times, does not represent the actual motion of these galaxies through the intervening space, but the dilation of 'space itself'.
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Due to the time it takes for light to reach us, galaxies at the edge of the universe are distant in terms of space and time.
| 0neutral
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The light travel time for the most distant visible galaxies is several billion years, comparable to the age of the universe, so by studying distant galaxies we are also looking back in time.
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Due to the time it takes for light to reach us, galaxies at the edge of the universe are distant in terms of space and time.
| 1entails
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The time it takes for light to reach us from the distant object will depend on which path a ray decides to take.
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Due to the time it takes for light to reach us, galaxies at the edge of the universe are distant in terms of space and time.
| 0neutral
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WFPC-2 isn't efficient enough to make the measurements for a large sample of distant galaxies--it takes too much observing time to collect enough light.
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Due to the time it takes for light to reach us, galaxies at the edge of the universe are distant in terms of space and time.
| 0neutral
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When a gravitational lens bends the light coming from a distant galaxy, the light coming round the galaxy on one side reaches us later than light which left at the same time and went round the other side.
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Due to the time it takes for light to reach us, galaxies at the edge of the universe are distant in terms of space and time.
| 0neutral
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You can lean back in your seat and take a trip to the moon, to a distant galaxy or back in time to see the creation of the universe.
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Due to the time it takes for light to reach us, galaxies at the edge of the universe are distant in terms of space and time.
| 0neutral
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Energy from the sun is captured by green plants and by photosynthesis it converts radiant energy from the sun into organic compounds such as glucose.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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For instance a green plant uses light energy to convert water and carbon dioxide into glucose by photosynthesis.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Glucose is manufactured by plants with the aid of energy from the sun in the process called photosynthesis.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Glucose, a product of plant photosynthesis, contains some of the Sun's light energy which was captured by the plant.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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In photosynthesis, autotrophs use energy from the sun to convert water from the soil and carbon dioxide from the air into a nutrient called glucose .
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Most primary production occurs through photosynthesis, whereby green plants convert solar energy, carbon dioxide, and water to glucose and eventually to plant tissue.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Photosynthesis converts the energy of the sun into chemical energy held within the bonds of compounds such as glucose.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Photosynthesis produces glucose from inorganic material and cellular respiration uses that glucose to convert it to energy, mainly ATP
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Photosynthesis, process by which green plants and certain other organisms use the energy of light to convert carbon dioxide and water into the simple sugar glucose.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Photosynthesis, the process by which plants convert the sun's energy to glucose, takes place during daylight hours when the plant's leaves are exposed to sunlight.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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The premier example is photosynthesis, in which most plants use solar energy to convert carbon dioxide and water into glucose, disposing of oxygen as a side-product.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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They use the sun's radiant energy in photosynthesis to manufacture glucose, carbohydrate and other plant cells.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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What this means is that during photosynthesis, the plant will use light energy to manufacture glucose.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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When a plant has been in the sun for some hours, the starch granules can get quite big as the glucose produced in photosynthesis is converted into starch.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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At this level the plants absorb sunlight and convert it to chemical energy (glucose) via photosynthesis.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Most people know that plants use the process of photosynthesis to take the sun’s energy and convert carbon dioxide and water into sugar (glucose).
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Photosynthesis. It absorbs light energy from the sun through the leaves (through the chlorophyll in the chloroplast). This energy is then used to convert carbon dioxide from the air plus water from the soil into a simple sugar called glucose.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Plants cells undergo a process called photosynthesis where light energy from the sun is used to convert carbon dioxide and water into glucose and oxygen.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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These single-celled floating plants use the sun's energy, water and the carbon dioxide from the water through photosynthesis to form glucose and oxygen.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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These single-celled floating plants use the sun’s energy, water and the carbon dioxide from the water through photosynthesis to form glucose and oxygen.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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autotrophs / primary trophic level with the greatest biomass. At this level the plants absorb sunlight and convert it to chemical energy (glucose) via photosynthesis.
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During photosynthesis, energy from the sun is converted to glucose after entering a plant.
| 1entails
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Also of great importance to our atmosphere is water vapor (1%-4%), carbon dioxide (much less than 1
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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As forests are cleared and not replaced, the amount of carbon dioxide in the atmosphere rises to much greater levels.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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As it rose to the earth’s surface and its pressure dropped, large amounts of carbon dioxide escaped into the atmosphere, much as when a can of carbonated beverage is opened.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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By 2010, China will introduce as much carbon dioxide in the atmosphere as the entire world does today.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Deforestation, especially by burning, releases a great amount of stored carbon dioxide into the atmosphere, adding to global warming.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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During the early Paleozoic, the amount of carbon dioxide in the atmosphere was much greater than it is today.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 1entails
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Even as the amount of carbon dioxide in the atmosphere has grown, there still isn't as much up there as scientists say there should be.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Human activities have already caused the amount of carbon dioxide equivalent in the atmosphere to increase by as much as 50% since preindustrial times.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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If the meteorite had impacted in areas of calcium carbonate( as in the Cretaceous seabed) great amounts of carbon dioxide would have been released into the atmosphere.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Of great concern is the amount of carbon dioxide the fires released in to the atmosphere.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Rain forests absorb great amounts of carbon dioxide from the atmosphere and can help reduce global warming.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Soil contains twice the amount of carbon as does the atmosphere, and it appears capable of storing much of the increase in atmospheric carbon dioxide if key agricultural practices are adopted.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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That is, rather than a hot, molten surface and atmosphere full of carbon dioxide, the Earth's surface would be very much like it is today.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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The amount of carbon in the atmosphere is roughly comparable to the amount contained in the biosphere, and the amount within soils is 1.5 times as much as either.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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The amounts of reduced carbon and carbon dioxide in the atmosphere, the ocean, and living organisms, however, are much smaller than those within sedimentary rocks.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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The proposal that Mars, early in its history, had some complement of water and an atmosphere of carbon dioxide and nitrogen much more dense than today is not unreasonable.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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The required amount of potassium hydroxide is quickly weighed, protecting it as much as possible from atmospheric moisture and carbon dioxide.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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The result was that only ten percent of the carbon dioxide was removed as compared to the expected amount for how much iron sulfate was added.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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These fuels contain large amounts of carbon, and when they are burned, much of that carbon is released into the atmosphere in the form of carbon dioxide and other gasses.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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These other factors would be such things as how much oxygen and carbon dioxide are in the atmosphere, the position of the continents, the amount of volcanic action, and so on.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Thus the amount of carbon dioxide in the atmosphere steadily increases, and it is said that by the years 2025-2050, there will by twice as much in the atmosphere as there was before industrialization.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Today much atmospheric carbon dioxide is bound up in this form, or dissolved in hot rock inside the Earth.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Today the oceans have 55 times as much carbon dioxide as does the atmosphere.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Today, man produces a great deal of carbon dioxide.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Too much carbon dioxide would give us a much warmer atmosphere.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Venus' atmosphere is primarily carbon dioxide, and much thicker than the atmosphere on Earth.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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When cleared and burned, much of this carbon ends up in the atmosphere as carbon dioxide.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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Wildfires release a great deal of carbon dioxide into the atmosphere.
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During the early paleozoic, the amount of carbon dioxide in the atmosphere was much greater compared to today.
| 0neutral
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ANAPHASE-- The microtubules from the centrosomes pull on the centromere of each chromosome and pulls the sister chromatids apart .
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During the anaphase phase, sister chromatids separate and the centromeres divide.
| 1entails
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As soon as the centromere divides, setting the two chromatids adrift (during anaphase of mitosis;
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During the anaphase phase, sister chromatids separate and the centromeres divide.
| 0neutral
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During Anaphase, homologues separate, not their sister chromatids.
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During the anaphase phase, sister chromatids separate and the centromeres divide.
| 0neutral
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During anaphase , sister chromatids separate and the centromeres divide.
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During the anaphase phase, sister chromatids separate and the centromeres divide.
| 1entails
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This checkpoint ensures that anaphase proceeds only when the centromeres of all sister chromatids lined up on the metaphase plate are properly attached to microtubules.
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During the anaphase phase, sister chromatids separate and the centromeres divide.
| 0neutral
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This is in sharp contrast with the situation in many animal cells, in which the arms of the sister chromatids separate mostly at the end of prophase in M phase but the centromeric cohesion is maintained until the metaphase-to-anaphase transition.
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During the anaphase phase, sister chromatids separate and the centromeres divide.
| 0neutral
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BrdU was incorporated into nuclear DNA during the S phase of DNA synthesis in the cell cycle.
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During the synthesis phase in the cell cycle, dna replication occurs.
| 0neutral
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DNA replication occurs during this S (synthesis) phase.
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During the synthesis phase in the cell cycle, dna replication occurs.
| 1entails
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During the S phase of the cycle, DNA directs the synthesis of new DNA and replicates itself.
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During the synthesis phase in the cell cycle, dna replication occurs.
| 1entails
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During the synthesis phase (S-phase) of the eukaryotic cell cycle, DNA replication occurs.
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During the synthesis phase in the cell cycle, dna replication occurs.
| 1entails
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