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Amino acids are made of carbon, nitrogen, oxygen and hydrogen.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Protein: Any of numerous naturally occurring complex combinations of amino acids containing the elements carbon, hydrogen, nitrogen, oxygen, usually sulfur, and occasionally other elements.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Proteins Proteins are compounds of amino acids that contain carbon, hydrogen, oxygen, nitrogen and, in a few cases, sulfur.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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The four major classes of organic molecules include carbohydrates, proteins, lipids and nucleic acids. These all contain carbon and a lot of organic molecules contain oxygen, …phosphorus, or nitrogen.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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This colourless substance is volatile and poisonous, with a boiling point of 23.5 °C. Isocyanic acid is the simplest stable chemical compound that contains carbon, hydrogen, nitrogen, and oxygen, the four most commonly found elements in organic chemistry and biology.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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amino acid: organic compound of carbon, hydrogen, oxygen, and nitrogen;
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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nucleic acid -- class of biochemical compounds which includes DNA and RNA.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Embryonic origin of the Arabidopsis primary root and root meristem initials.
Roots grow in length and width from the primary and secondary meristem.
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It covers and protects the apical meristem (the actively growing region) of the root.
Roots grow in length and width from the primary and secondary meristem.
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Know the difference between primary and secondary meristems in leaf cuttings.
Roots grow in length and width from the primary and secondary meristem.
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Root Growth Roots have primary and secondary meristems for growth in length and width.
Roots grow in length and width from the primary and secondary meristem.
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Roots have primary and secondary meristems for growth in length and width.
Roots grow in length and width from the primary and secondary meristem.
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Secondary meristems develop after primary meristems.
Roots grow in length and width from the primary and secondary meristem.
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Secondary shoot meristems were much less affected by day length.
Roots grow in length and width from the primary and secondary meristem.
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The Hobbit gene is required for formation of the primary root meristem in the Arabidopsis embryo.
Roots grow in length and width from the primary and secondary meristem.
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The second meristem, the cambium, which lies between the primary xylem and the primary phloem, produces secondary xylem cells around the center of the root and secondary phloem cells around the outside (474).
Roots grow in length and width from the primary and secondary meristem.
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Typical Gymnosperm Root Apex viewed with Phase Contrast Optics Close up of the Root Apical Meristem seen with Nomarski Optics Secondary Growth in Roots Secondary meristems arise in the stele and the cortex of roots.
Roots grow in length and width from the primary and secondary meristem.
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b) (i) What do you understand by primary meristem and secondary meristem.
Roots grow in length and width from the primary and secondary meristem.
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A special type of X-ray apparatus that demonstrates an organ or tissue at a particular depth.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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An ORGAN is a discrete structure that performs specific functions and is composed of at least 2 tissue types.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Each functional system considered in terms of its cell, tissue, and organ types.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Each functional system is considered in terms of its cell, tissue, and organ types.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Functions of basic tissue types and organs as related to structure.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Level of Impact Cells & Tissues Organs & Organ Systems Function of Organ & Organ Systems Individual Society Structural or functional Structural or functional Action or activity performance of organ or organ system.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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ORGANIZATION Type the ORGANIZATION code.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Organization and type.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Organization of PCR tissue Aristida type.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Organization type.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Organization types.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Other smaller organizations also perform this type of work.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Roundworms have organ-level organization, in which two or more types of tissues work together to perform a particular function as an organ.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Structure and function of basic cell types, tissues, and organs of vascular plants.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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The next level of organization breaks the jobs into work types.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Their organization is at the cellular level as they lack any type of tissue.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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This type of EPSS can be particularly useful in those organizations with employees that use three or more separate database applications to perform their work.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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This type of intervention can work at any organization level.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Type of Organization (TO) --
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Type of organization ,
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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Types and levels of organization provide.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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numbers and types of organs and tissues retained;
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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organ A structure consisting of two or more tissues that performs a specific function.
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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tissue-organ system levels of organization;
Roundworms exemplify organ-level organization, where two or more types of tissues work together to perform a particular function as an organ.
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An insulator only allows heat to move through it slowly.
Rubber is an example of a(n) insulators that does not allow electrons to move through them.
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For example, although elemental sodium is a metal, solid sodium chloride is an insulator, because the valence electron of sodium is transferred to chlorine to form an ionic bond, and thus that electron cannot be moved easily.
Rubber is an example of a(n) insulators that does not allow electrons to move through them.
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For example, an insulator on a power line could be replaced through the use of live-line tools, through the use of rubber insulating equipment, or by deenergizing the line.
Rubber is an example of a(n) insulators that does not allow electrons to move through them.
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In these substances (insulators) the electrons are tightly bound to the nuclei.
Rubber is an example of a(n) insulators that does not allow electrons to move through them.
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Rubber and other insulators do not possess any such free electrons and accordingly do not conduct electricity.
Rubber is an example of a(n) insulators that does not allow electrons to move through them.
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The Hard Rubber Insulator 95.
Rubber is an example of a(n) insulators that does not allow electrons to move through them.
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Watching electrons move in topological insulators with femtosecond resolution
Rubber is an example of a(n) insulators that does not allow electrons to move through them.
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a insulator is something that is a barrier to electrons and can not pass electricity, rubber is a good insulator.
Rubber is an example of a(n) insulators that does not allow electrons to move through them.
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plastics allow quick manufacture of an insulator, for example.
Rubber is an example of a(n) insulators that does not allow electrons to move through them.
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A biome
Salt-water biomes in the ocean are called marine biomes.
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As a result of this devastating oil spill, biomes such as the marine water biome, which includes oceans, estuaries and coral reefs, were also affected.
Salt-water biomes in the ocean are called marine biomes.
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Biomes -
Salt-water biomes in the ocean are called marine biomes.
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Biomes .
Salt-water biomes in the ocean are called marine biomes.
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Freshwater biomes have water that contains little or no salt.
Salt-water biomes in the ocean are called marine biomes.
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Marine biomes are found in the salt water of the ocean.
Salt-water biomes in the ocean are called marine biomes.
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The king of the Marine Biome is Marineator.
Salt-water biomes in the ocean are called marine biomes.
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These regions known as biomes, include a rain forest, a savannah, a salt water marsh, a fresh water marsh, an ocean, and a desert.
Salt-water biomes in the ocean are called marine biomes.
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Back to the Index Saturn Saturn's atmosphere is almost entirely hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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Click Saturn is a lot like Jupiter, in that it is a gas planet, made of mostly of the elements hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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For most of its life a star produces energy by fusing hydrogen to make helium.
Saturn is made mostly of helium and hydrogen.
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Hydrogen and helium are the most abundant species.
Saturn is made mostly of helium and hydrogen.
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It is fluid, composed mostly of hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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Jupiter and Saturn consist largely of hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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Jupiter's composition (mostly hydrogen and helium) makes it seem like a small star.
Saturn is made mostly of helium and hydrogen.
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Jupiter, Saturn, Uranus, and Neptune are primarily hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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Like Jupiter, Saturn is mostly hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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Like the others, Saturn has a rocky core but is primarily composed of light elements, mostly hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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Most of the hydrogen and helium in the Universe was created then.
Saturn is made mostly of helium and hydrogen.
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Saturn Saturn's atmosphere is almost entirely hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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Saturn has a thick atmosphere made up of mostly hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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Saturn holds mostly hydrogen (97%), helium (3%).
Saturn is made mostly of helium and hydrogen.
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Saturn is a gas giant, and is made up mostly of hydrogen and helium in gas and liquid form.
Saturn is made mostly of helium and hydrogen.
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Saturn is almost identical to Jupiter in overall structure -- a giant globe of gas, mostly hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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Saturn is made mostly of hydrogen and helium gas.
Saturn is made mostly of helium and hydrogen.
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Saturn is mostly gas , most of which is hydrogen and helium .
Saturn is made mostly of helium and hydrogen.
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Saturn's atmosphere is composed mainly of hydrogen and helium, the same gases out of which the Sun and most stars are made.
Saturn is made mostly of helium and hydrogen.
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Stars are mostly made of hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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This hydrogen will fuse to make helium.
Saturn is made mostly of helium and hydrogen.
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Uranus is a ball of mostly hydrogen and helium.
Saturn is made mostly of helium and hydrogen.
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X1011484965-00161-38394</DOCNO> Saturn Saturn More information: Views of the Solar System Welcome to the Planets Saturn is similar to Jupiter in size and composition (mostly Hydrogen and Helium -- no solid surface).
Saturn is made mostly of helium and hydrogen.
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If the basis of science rests on reproducibility, experimentation and model testing, the entrance and action of God into this scheme is considered to mess things up because one does not then know whether the results one sees are from natural events or the finger of God.
Science is a process of knowing about the natural universe through observation and experimentation.
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Most people recognize science as the study of natural phenomena by observation and experimentation.
Science is a process of knowing about the natural universe through observation and experimentation.
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SCIENCE The observation, identification, description, experimental investigation, and theoretical explanation of natural phenomena.
Science is a process of knowing about the natural universe through observation and experimentation.
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Science is a human endeavor that seeks to understand the universe by observation, experimentation, and rational interpretation of observations.
Science is a process of knowing about the natural universe through observation and experimentation.
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Science is the knowledge gathered about the natural world through observations and controlled experimentation.
Science is a process of knowing about the natural universe through observation and experimentation.
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Science is the system of knowing the universe through data collected by observation and controlled experimentation.
Science is a process of knowing about the natural universe through observation and experimentation.
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Science is then based on direct observation and experimentation.
Science is a process of knowing about the natural universe through observation and experimentation.
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Science-- A dynamic process of observation and experimentation for the discovery of new facts and theories.
Science is a process of knowing about the natural universe through observation and experimentation.
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The natural sciences are concerned with the observation, identification, description, experimental investigation, and theoretical explanation of natural phenomena that deal with matter, energy, and their interrelations.
Science is a process of knowing about the natural universe through observation and experimentation.
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The second is the road of objective natural sciences, based on observation, measurement, and experimentation.
Science is a process of knowing about the natural universe through observation and experimentation.
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As new tools of observation became available in the European Renaissance, scientists like Johannes Kepler were guided by their faith in the comprehensibility of the world based on the creationist tradition.
Scientists explain the world based on observations.
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At 6 pm CDT, Chilton explained to the public how a vast network of ground scientists and students camped in the field at many of the worldwide sites assist with the radar observations, and Godwin answered questions supplied by CNN viewers around the world.
Scientists explain the world based on observations.
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Chilton explained to ground controllers how a vast network of ground scientists and students camped in the field at many of the worldwide sites assist with the radar observations, and Godwin answered questions supplied by Cable News Network viewers around the world.
Scientists explain the world based on observations.
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Classical physics rules the world that most of us are familiar with, but in the world of the atom, quantum mechanics is necessary to explain the observations scientists routinely see in the laboratory.
Scientists explain the world based on observations.
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His research was based on careful case-studies and clinical observation more than a hundred years before scientists could explain the viruses themselves.
Scientists explain the world based on observations.
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Scientists generally base scientific hypotheses on previous observations that cannot satisfactorily be explained with the available scientific theories.
Scientists explain the world based on observations.
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Space-based observations of comets Cometary scientists all over the world are following the preparation of space missions to comets with great interest.
Scientists explain the world based on observations.
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Addition of large amounts of organic matter to the soil may also lead to a phenomenon known as &quot;nitrate depression,&quot; where the soluble nitrogen gets incorporated in the bodies of soil decomposers until the carbon of the organic matter is decomposed.
Sediments in oligotrophic lakes contain large amounts of decomposable organic matter.
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