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When two or more distinct elements are chemically combined, with the atoms held together by chemical bonds, the result is termed a chemical compound.
The atoms of a compound are held together by chemical bonds.
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Name the three different types of muscle tissue.
The body contains three types of muscle tissue.
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Name the three types of muscles in the body D.
The body contains three types of muscle tissue.
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Organization of the Muscular System There are three types of muscle tissue found in the human body;
The body contains three types of muscle tissue.
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Recognize the three major types of muscle tissues in the body.
The body contains three types of muscle tissue.
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The other three types are epithelial, muscle, and nervous tissue.
The body contains three types of muscle tissue.
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There are three different types of muscle tissue .
The body contains three types of muscle tissue.
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There are three different types of muscle tissue, skeletal, smooth and cardiac.
The body contains three types of muscle tissue.
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There are three specific types of muscle tissue.
The body contains three types of muscle tissue.
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There are three types of muscle in the body;
The body contains three types of muscle tissue.
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There are three types of muscle in the human body.
The body contains three types of muscle tissue.
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These three fatty acids are important in many body functions, including tissue strength, cholesterol metabolism, muscle tone and blood clotting.
The body contains three types of muscle tissue.
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Three types if muscle tissue;
The body contains three types of muscle tissue.
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Dolichocephaly, skull asymmetry, and large fontanelles occur in some cases.
The bones of the newborn skull are not fully ossified and are separated by large areas called fontanelles.
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The fontanelles are the crevices in a newborn's skull, literally where the skull has not completely grown over and sealed.
The bones of the newborn skull are not fully ossified and are separated by large areas called fontanelles.
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The wide-open fontanelles and sutures give a yielding character to the cranial vault, and the bones are so soft and pliable that the symmetry of the skull is easily destroyed by pressure.
The bones of the newborn skull are not fully ossified and are separated by large areas called fontanelles.
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fontanelle a soft spot, such as one of the membrane-covered spaces (fonticuli cranii (NA)) remaining in the incompletely ossified skull of a fetus or infant.
The bones of the newborn skull are not fully ossified and are separated by large areas called fontanelles.
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fontanelles -excessively large Ency.
The bones of the newborn skull are not fully ossified and are separated by large areas called fontanelles.
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Endocytosis and exocytosis- Endocytosis is a cellular process in which the material to be taken into the cell induces the membrane to form a vacuole enclosing the material;
The cell expels waste and other particles through a process called exocytosis.
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Exocytosis is a mechanism or process that allows substances to leave the cell.
The cell expels waste and other particles through a process called exocytosis.
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Exocytosis, fertilization of an egg by sperm and transport of waste products to the lysozome are a few of the many eukaryotic processes that rely on some form of fusion.
The cell expels waste and other particles through a process called exocytosis.
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He currently is working with scientists at Goteborg University in Sweden to develop mass-spectrometric methods aimed at understanding changes in the cell membrane following exocytosis, the process by which cells release neurotransmitters from small packets to communicate with other cells.
The cell expels waste and other particles through a process called exocytosis.
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In other cells, however, the onset of exocytosis was delayed by several minutes.
The cell expels waste and other particles through a process called exocytosis.
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In somatic cells, both L-type and T-type VDCC participate in exocytosis and similar processes (e.g., 91,92).
The cell expels waste and other particles through a process called exocytosis.
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It is implicated in a number of cell processes, including exocytosis and also cell migration and growth.
The cell expels waste and other particles through a process called exocytosis.
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Pinocytosis & Exocytosis Pinocytosis and exocytosis are still other mechanisms for transport across cell membranes.
The cell expels waste and other particles through a process called exocytosis.
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The findings were related to a process called exocytosis, which allows a cell to move substances from its interior to the space outside its surface membrane.
The cell expels waste and other particles through a process called exocytosis.
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The food vacuoles travel through the cytoplasm and are digested, with the molecules eventually passing into the cytoplasm, and wastes being expelled from the cell by exocytosis .
The cell expels waste and other particles through a process called exocytosis.
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The process occurring at the axon terminal is exocytosis, which a cell uses to exude secretory vesicles out of the cell membrane.
The cell expels waste and other particles through a process called exocytosis.
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This process is called exocytosis .
The cell expels waste and other particles through a process called exocytosis.
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This process is known as exocytosis .
The cell expels waste and other particles through a process called exocytosis.
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a process of directed exocytosis to kill infected target cells.
The cell expels waste and other particles through a process called exocytosis.
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and the processes by which cells obtain nutrients and maintain homeostasis (e.g., diffusion, facilitated diffusion, osmosis, active transport, exocytosis, endocytosis).
The cell expels waste and other particles through a process called exocytosis.
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describe the fluid mosaic structure of cell membranes, and explain the dynamics of passive transport (facilitated diffusion) and the processes of endocytosis and exocytosis of large particles;
The cell expels waste and other particles through a process called exocytosis.
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exocytosis -- release of a particle from inside the cell to the outside.
The cell expels waste and other particles through a process called exocytosis.
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process complementary to exocytosis 4.
The cell expels waste and other particles through a process called exocytosis.
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Cell membranes are built from two layers of phospholipids, molecules with water-loving heads and water-hating tails.
The cell membrane consists of two adjacent layers of phospholipids.
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The membrane is made of a two molecule thick layer (bilayer) of phospholipids, an oily substance found in all cells.
The cell membrane consists of two adjacent layers of phospholipids.
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The outer and inner cell membranes are composed of a phospholipid bilayer.
The cell membrane consists of two adjacent layers of phospholipids.
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Used for phospholipid cell membranes .
The cell membrane consists of two adjacent layers of phospholipids.
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phospholipids are an essential component in all cell membranes, where their form flexible, self healing, semipermiable, double layered boundaries between the cell and it surrounding environment.
The cell membrane consists of two adjacent layers of phospholipids.
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Covered in Lab 9 Seed Plant Sporophyte secondary oocyte A haploid cell whose chromosome number was reduced when a diploid primary oocyte underwent meiosis.
The cell starting meiosis is called a primary oocyte.
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In fact, a primary oocyte is, by its biological definition, a cell whose primary function is to divide by the process of meiosis.
The cell starting meiosis is called a primary oocyte.
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Primary oocytes begin meiosis I in the embryo, but do not complete it until ovulation to give rise to one secondary oocyte and a polar body.
The cell starting meiosis is called a primary oocyte.
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The cell starting meiosis is called a primary oocyte.
The cell starting meiosis is called a primary oocyte.
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The primary oocyte, in turn, starts to go through the first cell division of meiosis (meiosis I).
The cell starting meiosis is called a primary oocyte.
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The cell wall acts as an extra layer of protection, helps the cell maintain its shape, and prevents dehydration.
The cell wall acts as an extra layer of protection, helps the cell maintain its shape, and prevents dehydration.
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There are other plants with proteins to protect them against dehydration and shriveling by filling the space between a plant's cell membrane and its tough cell wall.
The cell wall acts as an extra layer of protection, helps the cell maintain its shape, and prevents dehydration.
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These organisms usually have thick cell walls that prevent dehydration and generally divide slowly.
The cell wall acts as an extra layer of protection, helps the cell maintain its shape, and prevents dehydration.
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Called a corpus luteum cyst.
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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Define a follicle and a corpus luteum.
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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Progesterone is produced, after ovulation, by the cells of the corpus luteum.
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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Sonogram of corpus luteum and follicles, mare
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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Specifically the estrogens are secreted by the theca interna cells and the granulosa cells of the ovarian follicle, the corpus luteum and the placenta.
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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The hormone progesterone is produced by a structure called the corpus luteum, located on the ovary.
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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The resulting structure, now called the corpus luteum (yellow body), produces progesterone and estradiol, two of the hormones critical to reproduction.
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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The site of the ruptured follicle develops into a structure called the corpus luteum (CL).
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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menstruation, follicle formation, ovulation, corpus luteum 78.
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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the granulosa cells and theca interna of the follicle and the theca lutein cells of the corpus luteum the granulosa lutein cells of the corpus luteum.
The cells in the follicle undergo physical changes and produce a structure called a corpus luteum.
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A prokaryote does not have a nucleus in the cell.
The cells of all protists have a nucleus.
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All animals are eukaryotes, with each of their cells having a nucleus containing DNA.
The cells of all protists have a nucleus.
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All body cells with a nucleus carry that.
The cells of all protists have a nucleus.
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All humans have either 46 or 48 chromosomes in the nucleus of our cells.
The cells of all protists have a nucleus.
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All these primitive living cells have no central nucleus and are called prokaryotes.
The cells of all protists have a nucleus.
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As prokaryotes (organisms without a cell nucleus) all bacteria have a relatively simple cell structure lacking a cell nucleus and organelles such as mitochondria and chloroplasts .
The cells of all protists have a nucleus.
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Cells that have a nucleus called eukaryotic cells will have the DNA inside the nucleus.
The cells of all protists have a nucleus.
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HD affects the brain, though all cells with a nucleus will have the abnormal gene.
The cells of all protists have a nucleus.
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In common with all protists, individual Chilomonas are single cells, but are distinguished from monerans by having internal organelles, including a cell nucleus.
The cells of all protists have a nucleus.
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In the nucleus of all living cells.
The cells of all protists have a nucleus.
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Like all other eukaryotes, protists have a nucleus containing their DNA.
The cells of all protists have a nucleus.
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Like other eukaryotes, plants have a nucleus, plasma membrane, mitochondria, and other organelles, but plant cells differ from animal, fungal, and protist cells in a number of important ways.
The cells of all protists have a nucleus.
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Most of the DNA is in the nucleus of a cell, but not all.
The cells of all protists have a nucleus.
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Only eukaryotic cells have a nucleus.
The cells of all protists have a nucleus.
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Our red blood cells lose their nucleus, so have no chromosomes at all.
The cells of all protists have a nucleus.
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Prokaryotic cells do not have a nucleus .
The cells of all protists have a nucleus.
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Prokaryotic cells have no nucleus.
The cells of all protists have a nucleus.
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Protists, also referred to as protozoans, are one-celled organisms with a nucleus and complex cell organelles.
The cells of all protists have a nucleus.
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Scientists have determined that it is not in the nucleus, the cell membrane nor all over the cytoplasm.
The cells of all protists have a nucleus.
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Soon we will have sequenced all of the DNA in the nucleus of a human cell.
The cells of all protists have a nucleus.
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The cells in animals have a nucleus, while plant cells do not have a nucleus.
The cells of all protists have a nucleus.
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These cells have no nucleus and no complex organelles.
The cells of all protists have a nucleus.
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This is found in the Nucleus of all cells.
The cells of all protists have a nucleus.
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a cell that does have a nucleus 7.
The cells of all protists have a nucleus.
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lack cell nucleus, as do all prokaryotes (eukaryotes have nucleus).
The cells of all protists have a nucleus.
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occurs in the nucleus and cytoplasm of all cells.
The cells of all protists have a nucleus.
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The blastocyst consists of an inner cell mass (embryoblast) and an outer cell mass (trophoblast).
The cells of the blastocyst form an inner cell mass called the embryoblast.
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The inner cells, called the inner cell mass or embryoblast , are attached to the trophoblast at the embryonic pole of the blastocyst.
The cells of the blastocyst form an inner cell mass called the embryoblast.
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Alphabetically arranged by element with information on discovery, name, physical and chemical properties, with illustration of electron configuration.
The chemical behavior of elements can largely be explained by electron configurations.
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As with other groups, the members of this family show patterns in their electronic configuration, especially the outermost shells, resulting in trends in chemical behavior:
The chemical behavior of elements can largely be explained by electron configurations.
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Be able to explain the electron configuration that determines an elements position in the table.
The chemical behavior of elements can largely be explained by electron configurations.
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Besides chemical information, one can click on a menu that leads to physical, nuclear, electronic, biological, geological, crystallographic, reduction potentials, isotope abundances, electronic configurations, and ionization enthalpies data for each element.
The chemical behavior of elements can largely be explained by electron configurations.
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Electrons and Chemical Periodicity covers the behavior of electrons in atoms;
The chemical behavior of elements can largely be explained by electron configurations.
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Explain how each trend reflects the electron configuration of the elements.
The chemical behavior of elements can largely be explained by electron configurations.
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Give the electron configuration for the element antimony.
The chemical behavior of elements can largely be explained by electron configurations.
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Individual chemical elements can create more stable electron configurations by combining to share their electrons.
The chemical behavior of elements can largely be explained by electron configurations.
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Know that atoms consist of a nucleus surrounded by electrons, and that the arrangement of the electrons determines the chemical behavior of each element.
The chemical behavior of elements can largely be explained by electron configurations.
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Nevertheless, many elements of the machine bureaucracy configuration can be found in large organisations.
The chemical behavior of elements can largely be explained by electron configurations.
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The chemical behavior of an element depends on its size and the number of electrons in its outer shell.
The chemical behavior of elements can largely be explained by electron configurations.
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The different configuration elements and their defaults explained.
The chemical behavior of elements can largely be explained by electron configurations.
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The ground-state electron configuration of element 184 (unoctquadium) is expected to be only the 8d and 7f electrons should be chemically active, with possible reasons being small radial extension and large binding energy.
The chemical behavior of elements can largely be explained by electron configurations.
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