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A Chinook Wind D.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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Also if clouds are forced up and over a mountain range by prevailing winds the cooling of the air mass as it rises can cause condensation then precipitation.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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Another type of local winds is called the Chinook winds, which results when strong regional winds pass over a mountain range and descend on the leeward side.
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Chinook winds occur when air is forced over a mountain range.
| 1entails
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But then the Chinook winds are unpredictable.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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C CHINOOK WIND A warm, dry wind that descends the eastern slopes of the Rocky mountains.
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Chinook winds occur when air is forced over a mountain range.
| 1entails
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Chinook Winds Casino
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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Chinook winds are warm, dry winds that occur on the lee- side of high mountain ranges.
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Chinook winds occur when air is forced over a mountain range.
| 1entails
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If the site is located on a mountain range oriented perpendicularly to the prevailing wind the air is forced to flow over the mountain barrier.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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Our case study falls into the Chinook wind type scenario.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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Pileus is a fleeting, ephemeral cloud type and forms as convective up-draughts in the cumulus force upper winds over the rising congestus, just like air being forced to rise over a mountain range.
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Chinook winds occur when air is forced over a mountain range.
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Prevailing winds carry air toward the mountain range.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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The fohn-wind family consists of winds that are warm and dry because their air has been warmed by compression as they flow over the mountain ranges and then down the leeward slopes.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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The movement of the cyclone away from the mountains favored the development of strong chinook winds.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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The winds are forced up and over the mountains.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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When these winds which contain the water hit the mountain range, the winds are forced upward.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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warm, dry Rocky Mountain wind (7) CHINOOK 3.
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Chinook winds occur when air is forced over a mountain range.
| 0neutral
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Complex (co-ordination compound) is a type of compound in which molecules or ions from co-ordinate bonds with a metal or ion.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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In metallic bonding, the valence electrons are not located anywhere, so to speak;
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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Ion-implantation for strong metal-ceramic bonds .
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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Metallic bonding refers to the specific bonding between positive metal ions and surrounding valence electron clouds.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 1entails
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Metallic bonds form between atoms that have fewer valence electrons than they have valence orbitals.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 1entails
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The considered interaction types include hydrogen bonding, hydrophobicity, electrostatics, metal ions, covalent bonding patterns.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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The contaminated metal ions are bonded into the protein biologically.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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The electrons in these water molecules are somewhat attracted to the positive charge of the metal ion and, as a result, the O-H bonds in these water molecules are slightly weakened.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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The mechanism of said reaction was studied and theorized to be isolobal to the disproportionation of metal-metal bonded dimers involving 19-valence electron intermediates.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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The mechanism that holds a metallic bond together is the attraction between the positive kernels and the negative electron sea.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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The number of bonds depends on the size, charge, and electron configuration of the metal ion and the ligands.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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The positive charge on the metal ion draws electron density from the O-H bond in the water.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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The simplest, the metal-to-metal bond, is thought of as a sea of loose electrons holding metal atoms together.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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The valence electron, s, of the excited rare gas has a bond energy close to that of the alkali metal that follows it in the periodic table.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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This type of bond is called a metallic bond.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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bonding theories-ionic, covalent (valence bond and molecular orbital) and metallic;
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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demonstrate an understanding of the formation of ionic bonds between metals and non-metals, and relate the charge on an ion to the number of electrons lost or gained.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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electronic structure and bonding of the transition metals;
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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from the type of bonds they have (metalic bond)
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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in metallic bond
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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of valence electrons is 2, we predict a METALLIC BOND .
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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thus, X-ray crystallographic studies have led to the discovery of even more exotic types of bonding in inorganic chemistry, such as metal-metal double bonds, metal-metal quadruple bonds, and three-center, two-electron bonds.
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Metallic bonds hold together positive metal ions and their valence electrons.
| 0neutral
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Another common unit for power is the horsepower (HP), which is the amount of work that an average horse can do per second.
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A horsepower is equal to the amount of work a horse can do in 1 minute.
| 1entails
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Horsepower and watts are merely two different units for describing the same kind of physical measurement, with 1 horsepower equaling 745.7 watts.
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A horsepower is equal to the amount of work a horse can do in 1 minute.
| 0neutral
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If the tunnel can be placed forward and low then a good 4 horsepower unit will work.
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A horsepower is equal to the amount of work a horse can do in 1 minute.
| 0neutral
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One (1) horsepower equals 746 watts.
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A horsepower is equal to the amount of work a horse can do in 1 minute.
| 0neutral
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One horsepower equals 33,000 foot-pounds of work per minute;
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A horsepower is equal to the amount of work a horse can do in 1 minute.
| 0neutral
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So, if you want a quick answer to the difference between horsepower and torque, just keep in mind that horsepower involves the amount of work done in a given time, while torque is simply a measurement of force and is thus a component of horsepower.
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A horsepower is equal to the amount of work a horse can do in 1 minute.
| 0neutral
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The Horse in Sport DRAFT HORSE COMPETITION Horse Pulls In days when "horsepower" was a literal measure of work,Clydesdales, Percherons and other draft breeds hauled heavy loads over city cobblestones and rural roads.
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A horsepower is equal to the amount of work a horse can do in 1 minute.
| 0neutral
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We measure the power of machines in units such as the Watt or horsepower .
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A horsepower is equal to the amount of work a horse can do in 1 minute.
| 0neutral
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By definition, the molar heat of reaction is the heat given off or absorbed by the reaction expressed in units of kilojoules per mole of one of the reagents in the reaction.
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Kilojoules are typically used to measure heats of reaction.
| 1entails
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Common solar radiation measurement units are langleys, Btus per square foot, kilojoules per square meter, and watts per square meter.
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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Energy The units joule (j) and kilojoule (kJ) should be used exclusively.
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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Hence the unit of kinetic energy is joules, kilojoules etc.
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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If bigger units are needed, the kilojoule (kJ) is used, and it's obviously 1000 joules.
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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Other countries use the unit kilojoule (kJ) to measure Food Energy.
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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Strictly speaking, we should use the System Internationale (SI) units of kiloJoules, but in this country we tend to use kilocalories.
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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The most common approach for converting a measurement of heat into an intensive quantity is to calculate the heat of reaction in units of kilojoules per mole.
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Kilojoules are typically used to measure heats of reaction.
| 1entails
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The units will be kilojoules per mole .
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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Typically, we use the SI units of Joules (J) and kilojoules (kJ).
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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Units of kilojoules (kJ), or thousands of joules;
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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Using kilojoules you now have a unit of measure that comprises actual energy expended over a certain distance.
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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write(' Kilojoule A metric unit of measurement for the energy content of foods.
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Kilojoules are typically used to measure heats of reaction.
| 0neutral
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Mechanical waves are waves which require a medium in order to transport their energy from one location to another.
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Mechanical waves require a material medium such as water, air, or rope.
| 1entails
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Mechanical waves, unlike electromagnetic waves, require the presence of a material medium in order to transport their energy from one location to another.
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Mechanical waves require a material medium such as water, air, or rope.
| 1entails
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Waves like this are called mechanical because the energy is transmitted through a material medium, without a mass movement of the medium itself .
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Mechanical waves require a material medium such as water, air, or rope.
| 1entails
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Waves that require a medium are called mechanical waves (answer B.) 10.
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Mechanical waves require a material medium such as water, air, or rope.
| 1entails
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Waves which require any medium for their propagation are called mechanical waves.
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Mechanical waves require a material medium such as water, air, or rope.
| 1entails
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50 Gives current windchill factor when wind speed and temperature are provided.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 0neutral
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LANL Weather Machine Current Temperature and Windchill Choose TA-6 for information on the weather nearest UNM-LA.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 0neutral
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The Kestrel 2000 measures wind speeds like the 1000 and adds temperature and windchill readings in either F or C.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 0neutral
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The University of Michigan Weather Underground- Displays weather maps which include, humdity, temperature, windchill and radar maps.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 0neutral
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The best estimate of coldness is windchill temperature as this combines the effect of temperature and wind.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 1entails
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The windchill index combines air temperature and wind speed to come up with a reading of what it supposedly feels like outside.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 1entails
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The windchill temperature was not pleasant.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 0neutral
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Windchill The Windchill key, when depressed, calculates and displays, using wind speed and temperature, a factor which represents how cold the temperature and wind feel to bare flesh.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 1entails
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Windchill expresses the combined effect of wind and air temperature on body heat loss.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 1entails
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Winds gusting to 40mph with windchill temperatures around -35.
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Windchill describes what the temperature feels like when the wind is taken into account.
| 0neutral
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the windchill made the temperature feel like zero;
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Windchill describes what the temperature feels like when the wind is taken into account.
| 0neutral
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About 4,000 species of prokaryotes have been described, but there are an estimated 1 to 3 million undescribed species living on Earth today.
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Prokaryotes were the first living things to evolve on earth.
| 0neutral
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E) Eukaryotes did not evolve from prokaryotes.
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Prokaryotes were the first living things to evolve on earth.
| 0neutral
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Fungi may have evolved from prokaryotes by endosymbiosis
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Prokaryotes were the first living things to evolve on earth.
| 0neutral
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Prokaryote Metabolism Like all living things, prokaryotes need energy and carbon.
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Prokaryotes were the first living things to evolve on earth.
| 0neutral
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Prokaryotes are believed to be the first living organisms that developed 3.4 billion years ago.
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Prokaryotes were the first living things to evolve on earth.
| 1entails
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Prokaryotes are the simplest living organism.
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Prokaryotes were the first living things to evolve on earth.
| 0neutral
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Prokaryotes live in mixed communities
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Prokaryotes were the first living things to evolve on earth.
| 0neutral
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Prokaryotes were here first , appearing very soon after Earth had cooled enough for life to survive.
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Prokaryotes were the first living things to evolve on earth.
| 1entails
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Prokaryotes were the first forms of life on earth, evolving over 3.5 billion years ago.
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Prokaryotes were the first living things to evolve on earth.
| 1entails
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The current model of the evolution of the first living organisms is that these were some form of prokaryotes, which may have evolved out of protocells.
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Prokaryotes were the first living things to evolve on earth.
| 1entails
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The prokaryotes thus were the earliest organisms, and they lived and evolved all alone on Earth for 2 billion years.
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Prokaryotes were the first living things to evolve on earth.
| 1entails
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There is no such thing as meiosis or syngamy in prokaryotes .
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Prokaryotes were the first living things to evolve on earth.
| 0neutral
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theory that eukaryotic organelles such as mitochondria evolved from ancient, free-living prokaryotes that invaded primitive eukaryotic cells
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Prokaryotes were the first living things to evolve on earth.
| 0neutral
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Failure to respond effectively to a failure of homeostasis can result in disease or death.
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If an organism's homeostasis is not maintained, the effect will be death or disease.
| 1entails
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If an organism fails to maintain homeostasis, this may result in disease or death.
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If an organism's homeostasis is not maintained, the effect will be death or disease.
| 1entails
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Screening Protocol for Genetic Diseases of Lymphocyte Homeostasis and Programmed Cell Death
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If an organism's homeostasis is not maintained, the effect will be death or disease.
| 0neutral
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explain disease as a failure of homeostasis
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If an organism's homeostasis is not maintained, the effect will be death or disease.
| 0neutral
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Alkali bulrush, the most salt tolerant, will give way once again to stands of hardstem bulrush, cattail, and other plants as the marsh freshens.
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The word alkali comes from the arabic al-qili, meaning “ashes of the saltwort plant from salt marshes”.
| 0neutral
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Alkali salts
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The word alkali comes from the arabic al-qili, meaning “ashes of the saltwort plant from salt marshes”.
| 0neutral
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Alkali sinks and salt marshes are world-wide.
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The word alkali comes from the arabic al-qili, meaning “ashes of the saltwort plant from salt marshes”.
| 0neutral
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And then they take that ash and water wash it, which gets rid of the alkali salts, the alkaline metals, and these plants just happen to be very high in iridium.
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The word alkali comes from the arabic al-qili, meaning “ashes of the saltwort plant from salt marshes”.
| 0neutral
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At higher elevations in the marsh (that area covered by salt water only during the high spring tides), several other plants appear among the Pickleweed and Alkali Heath.
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The word alkali comes from the arabic al-qili, meaning “ashes of the saltwort plant from salt marshes”.
| 0neutral
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Between the mean higher high water tide level (MHHW) and the upper limit of tidal inundation (EHW) the salt marsh vegetation is dominated by perennial pickleweed (Salicornia virginica) and to a lesser extent, alkali heath (Frankenia).
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The word alkali comes from the arabic al-qili, meaning “ashes of the saltwort plant from salt marshes”.
| 0neutral
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Effect of Certain Alkali Salts on Growth of Plants.
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The word alkali comes from the arabic al-qili, meaning “ashes of the saltwort plant from salt marshes”.
| 0neutral
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Excreting salt glands occur in numerous unrelated plant groups certain grasses that live in alkali sink and salt pans and in warm temperate to tropical salt marshes.
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The word alkali comes from the arabic al-qili, meaning “ashes of the saltwort plant from salt marshes”.
| 0neutral
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