premise
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The speed of the light ray changes upon changing mediums.
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When light passes from one medium to another, it changes speed.
| 1entails
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This change in speed causes the direction of a light beam to change as it passes from one material to another.
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When light passes from one medium to another, it changes speed.
| 1entails
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Whenever a wave changes speed in passing from one medium to another, part of that wave is reflected.
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When light passes from one medium to another, it changes speed.
| 1entails
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Within such a medium, the speed is constant, but light changes its speed when it moves from one medium (say air) to another (say glass).
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When light passes from one medium to another, it changes speed.
| 1entails
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Any area where surface manifestations of hot springs, geysers, mud springs, fumerols or warm ground are present.
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When magma heats groundwater, it may come to the surface as a hot spring or a geyser.
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Anyone who has seen a geyser or hot spring immediately thinks of heat.
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When magma heats groundwater, it may come to the surface as a hot spring or a geyser.
| 0neutral
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Geysers, which are close cousins of volcanoes, are made by water seeping down throught the ground, then gets heated by a hot spot of magma many miles below the surface.
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When magma heats groundwater, it may come to the surface as a hot spring or a geyser.
| 1entails
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Silica precipitates at the surface to form either geyserite or sinter, creating the massive geyser cones, the scalloped edges of hot springs, and the seemingly barren landscape of geyser basins.
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When magma heats groundwater, it may come to the surface as a hot spring or a geyser.
| 0neutral
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Surface conditions such as droughts or extremely wet periods may not effect geyser eruptions or hot spring flow for hundreds of years.
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When magma heats groundwater, it may come to the surface as a hot spring or a geyser.
| 0neutral
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There are no geysers in the Mammoth Hot Springs area.
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When magma heats groundwater, it may come to the surface as a hot spring or a geyser.
| 0neutral
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This is a picture of geysers and hot springs.
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When magma heats groundwater, it may come to the surface as a hot spring or a geyser.
| 0neutral
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To such determinations must be added the heat lost from hot springs, geysers and other surface features.
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When magma heats groundwater, it may come to the surface as a hot spring or a geyser.
| 0neutral
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Extrusive or volcanic igneous rocks are formed by magma reaching the surface of the earth and solidifying.
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When magma reaches the surface through cracks in the earth's crust, a volcanic eruption occurs.
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How do volcanic eruptions change the earth surface.
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When magma reaches the surface through cracks in the earth's crust, a volcanic eruption occurs.
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Magma (liquid rock) forced its way through the weaker parts of the earth's crust (volcanic eruptions), and when the magma from many eruptions cooled it gradually formed the islands of Japan.
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When magma reaches the surface through cracks in the earth's crust, a volcanic eruption occurs.
| 1entails
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Volcanic tremors are associated with volcanic eruptions, when magma penetrates the crust and ruptures it.
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When magma reaches the surface through cracks in the earth's crust, a volcanic eruption occurs.
| 1entails
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Resistance training is a form of anaerobic exercise (without oxygen).
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When performing anaerobic exercise, your muscles work against resistance.
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Resistance training is generally considered an anaerobic exercise.
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When performing anaerobic exercise, your muscles work against resistance.
| 1entails
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Students will use Swiss Balls, Resistance Bands, Medicine Balls, and Dumbbells to perform exercises for all major muscle groups of the body.
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When performing anaerobic exercise, your muscles work against resistance.
| 0neutral
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TO ORDER Typically the rotator cuff muscles are weak and require a much lighter resistance than other muscle groups to effectively perform the exercises.
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When performing anaerobic exercise, your muscles work against resistance.
| 0neutral
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A time series, sampled at n points, is represented as an italicized uppercase letter such as A.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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A-Z The uppercase letters represent the various inhabitants of the Dungeons of Doom.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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A.B.C.D Address to match Generally, uppercase letters represent variables, though this is not always the case.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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Consider the following example, where Arabic or Hebrew letters are represented by lowercase English letters and English text is represented with uppercase letters.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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Each of the pieces (other than pawns) are represented by an uppercase letter.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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For example, a letter preceded by dots 4-5-6 represents a single uppercase letter.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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In the identification of soil horizons, an uppercase letter represents the major horizons.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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In the lower right corner the represented letter is depicted in a raised uppercase print format.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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In this orthography, upper and lower case letters are not interchangeable (uppercase letters mostly represent sounds different from those expected by English speakers).
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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It is represented by the uppercase letter R.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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Often first letter of allele name is uppercase if it is dominant, lower case if recessive.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 1entails
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Routine names are represented in all uppercase letters with separating spaces.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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Subscripted uppercase letters represent matrix blocks.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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The convention we use is UPPERCASE LETTERS represent amino acids (e.g., VALQRK...) and lowercase letters represent environments (letters a...r).
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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The file can be represented by the operating system entirely in uppercase letters.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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These are represented by uppercase letters and can be listed by using env or printenv at the command prompt.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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U-chord can be used to print an uppercase letter except in the cases in which the uppercase letter is represented by an ASCII value.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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Uppercase letters represent pointers.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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Variables and function names that were represented by strings of lower-case letters are translated to the corresponding strings of the corresponding uppercase letters.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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We will represent the dominant form of a gene with an uppercase letter and the recessive form with a lowercase letter.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 1entails
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When truncation is permitted, uppercase letters represent the shortest acceptable version of the operand.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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Z represents all the uppercase letters of the Roman alphabet;
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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as usual an uppercase letter represents a pointer and a lowercase letter a data item.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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lower case letters and numbers represent actual values, uppercase represent data fields whose values may vary from packet to packet;
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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toUpperCase() Displays string in all uppercase letters Description A string can be represented as a literal enclosed by single or double quotes.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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use of a single uppercase letter is encouraged.
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When represented by a single letter, dominant alleles are represented by uppercase letters.
| 0neutral
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A major role of the plasma membrane is transporting substances into and out of the cell.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Active Transport Active transport occurs when energy is needed for a substance to move across a plasma membrane.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Active Transport The movement of a substance across a membrane requiring energy.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Active transport occurs when energy is needed for a substance to move across a plasma membrane.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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All cells need energy to carry out their functions, such as making proteins and transporting substances into and out of the cell.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Cells have developed transport mechanisms able to move these substances across membranes.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Compare passive membrane transport with active membrane transport.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
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Contrary to common belief, thyroid hormones cannot traverse cell membranes in a passive manner like other lipophilic substances.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Draw a diagram of the cell membrane of an animal cell (Just the outer membrane, not the whole cell) include and label the phospholipid bilayer and the membrane bound proteins (passive transport proteins, active transport proteins, and hormone receptor proteins).
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Facilitated diffusion across a biological membrane requires (energy, or transport proteins) Facilitated diffusion moves a substance (up, down) its concentration gradient, and is a form of (active, passive) transport.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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However, it is known that micelles are not absorbed intact, but that the fats, including cholesterol, pass through the brush border membrane into the cells, probably with the involvement of binding proteins and passive transport mechanisms.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Know the 4 major passive membrane transport processes, how each operates, and the types of substances transported for each process.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Passive Transport Passive transport occurs when substances cross the plasma membrane without any input of energy from the cell.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 1entails
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Passive transpont- exchange of materials across the cell membrane in which the cell does not expend energy.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 1entails
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Passive transport involves the movement of molecules across the cell membrane without an input of energy by the cell.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 1entails
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Passive transport occurs when substances cross the plasma membrane without any input of energy from the cell.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 1entails
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Sketch plots that describe the active transport and the passive diffusion of this substance across a cell membrane.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Students should already be familiar with the cell membrane, passive transport and facilitated transport, homeostasis and hormone regulation.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Substances can also move through the cell membrane by active transport, thus requiring energy, moving from low to high concentration.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Substances transport across membrane without any energy input from cell.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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The pathogenic action of infectious agents, the transduction of energy, the active and passive transport of ions and molecules, and the transmission of biochemical signals into and out of cells and organelles are some of the biological processes mediated by membrane proteins.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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The transport of substances from cell to cell via plasmodesmata is called symplastic transport .
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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These channels can be permanently open ( free passive transport ), or open only when certain conditions are present in the cell membrane ( gated passive transport ).
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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This accumulation results from the ability of highly lipophilic substances to dissolve in the lipid membrane of epithelial cells and to be retained in the body via their passive transport back across the epithelium.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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Transport of substances across membranes often requires energy to overcome a concentration gradient.
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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cell membranes and membrane transport mechanisms;
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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type of active transport in which substances are carried across the cell membrane by vesicles
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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understand the basic mechanisms of passive transport through the cell membrane;
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When substances pass through the cell membrane without needing any energy, it is called passive transport.
| 0neutral
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A tsunami, or tidal wave, is a huge wave caused by seismic movements, or earthquakes, in the ocean.
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When the energy of the earthquake reaches shore, it forms a huge wave called a tsunami.
| 1entails
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An mpeg animation of tsunami wave propagation from an earthquake.
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When the energy of the earthquake reaches shore, it forms a huge wave called a tsunami.
| 0neutral
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It also issued warnings of possible tsunamis, or huge ocean waves that sometimes follow earthquakes.
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When the energy of the earthquake reaches shore, it forms a huge wave called a tsunami.
| 0neutral
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Subsea earthquakes may produce a tsunami , or a seismic sea wave, which may arrive onshore as a huge 'tidal' wave.
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When the energy of the earthquake reaches shore, it forms a huge wave called a tsunami.
| 1entails
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The earthquake also did not generate a tsunami wave.
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When the energy of the earthquake reaches shore, it forms a huge wave called a tsunami.
| 0neutral
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The scientists think the tsunami, in turn, would create so-called seiche waves, mountainous waves that lurch from shore to shore for hours on end.
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When the energy of the earthquake reaches shore, it forms a huge wave called a tsunami.
| 0neutral
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There was no danger of tsunami, or huge waves caused by undersea disturbances such as volcanic activity or earthquakes, the Meteorological Agency said.
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When the energy of the earthquake reaches shore, it forms a huge wave called a tsunami.
| 0neutral
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These Tsunamis are large waves that form when the shock waves of the earthquake approach shallow water and the wave picks up speed and rises out of the water.
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When the energy of the earthquake reaches shore, it forms a huge wave called a tsunami.
| 1entails
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Tsunamis are waves formed when huge masses of water are displaced by undersea volcanic eruptions or earthquakes.
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When the energy of the earthquake reaches shore, it forms a huge wave called a tsunami.
| 1entails
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Also, fertilizer not absorbed by the plant roots may contaminate groundwater and surface water.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Bogs that receive moisture from surface water or groundwater are called minerotrophic bogs.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Groundwater and surface waters are connected.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Groundwater or surface water ownership.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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In open dumps, the material that leached would be absorbed into the ground and potentially move into groundwater, surface water, or aquifer systems.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Integrate surface water and groundwater databases.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Integration of groundwater and surface water use.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Monitoring of groundwater and surface water;
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Monitoring of groundwater, surface water, and sediments.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Often crops are unable to absorb such large amounts, resulting in groundwater and surface water contaminated by excess nutrients.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Parking lots and other impervious surfaces prevent water from being absorbed into the soil and flowing into groundwater reservoirs.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Surface water-groundwater interaction;
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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The study of surface water and groundwater, with emphasis on groundwater.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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There are no impacts expected on groundwater or surface water.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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There is no relationship between groundwater and surface water.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 0neutral
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Water below the ground's surface is called groundwater.
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 1entails
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Water inflow below the surface of the ground to a lake or river is called groundwater .
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When the ground absorbs the water and it settles below the surface it is called groundwater.
| 1entails
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