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Meninges The three layers of membrane which cover the brain and the spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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Meninges The three membranes covering the brain and spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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Meninges The three-layered set of membranes that enclose the brain and spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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Meninges are three layers of connective tissue that completely envelope and protect the brain and spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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Meninges are three layers of tissue that cover and protect the brain and spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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Meninges are three-layered membranes that surround the brain and spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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Meninges the three membranes covering and protecting the spinal cord and brain;
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The three layers of protective coverings of the spinal cord is called the meninges.
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The arachnoid mater is one of the three meninges, the protective membranes that cover the brain and spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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The brain and spinal cord are covered by the meninges, the three protective membranes of the tough dura mater, the arachnoid mater and the pia mater.
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The three layers of protective coverings of the spinal cord is called the meninges.
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The brain and the spinal cord are surrounded by three membranes called meninges , which serve a protective function.
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The three layers of protective coverings of the spinal cord is called the meninges.
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The meninges are the three layers of protective membranes that line the spinal cord and the brain .
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The three layers of protective coverings of the spinal cord is called the meninges.
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The meninges are three thin layers of membrane that cover the brain and spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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The spinal cord (and brain) are protected by three layers of tissue, called spinal meninges, that surround the canal.
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The three layers of protective coverings of the spinal cord is called the meninges.
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The spinal cord is protected by three layers of tissue, called spinal meninges, that surround the canal.
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The three layers of protective coverings of the spinal cord is called the meninges.
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The spinal cord is surrounded by three protective membranes, called meninges, which extend around the brain as well.
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The three layers of protective coverings of the spinal cord is called the meninges.
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This sac contains the spinal cord and the meninges, the protective layers of tissue that enclose the spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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Three thin membranes, called meninges, cover the entire brain and spinal cord forming a thin protective layer.
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The three layers of protective coverings of the spinal cord is called the meninges.
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Whereas cyclostomes and fishes only have a single envelope called the primitive meninx, amphibians have two layers, consisting of an outer dura mater which is extremely dense and protective, and a pia-arachnoid or secondary meninx which is more delicate and vascular.
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The three layers of protective coverings of the spinal cord is called the meninges.
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neutral
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meninges The three membranes that cover the spinal cord and brain.
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The three layers of protective coverings of the spinal cord is called the meninges.
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pia mater The innermost meninx that is in direct contact with the brain and spinal cord.
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The three layers of protective coverings of the spinal cord is called the meninges.
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neutral
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A black hole orbiting another star might draw matter from the companion star.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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A companion star is a perfect source of material for a black hole.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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Because a black hole has such a powerful gravitational force, a galactic black hole in a binary system can literally tear apart its companion star.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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Because of this, black holes are most easily detected by observing their effects on other bodies of matter, for example, a companion star.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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But if there is another star nearby, a binary companion, we can detected the black hole in directly by the effect it has on its companion.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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In a storm of x-rays and temperatures reaching millions of degrees, it transfers matter to its compact companion, which can be either a neutron star or a black hole.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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neutral
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In fact, you can actually "weigh" an object, such as a planet, star, or black hole, by determining the distance and speed of nearby orbiting matter.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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Not like it matters, but now you'll be crushed by the acceleration of your rocket and the tidal forces of the black hole.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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neutral
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Observer may not notice falling through the event horizon unless the black hole is small so that tidal forces are large.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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Star Menu Home White Dwarf Black Holes Constallation Names Planetary Nebula BLACK HOLES A black hole is a theorized celestial body whose surface gravity is so strong that no light can escape from it.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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neutral
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Such random speeds would not be the case near supermassive black holes because their horizons are so enormous and their tidal forces are so weak.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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neutral
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Think of draining your bathtub: Accretion disks are the celestial equivalent of this phenomenon, and can be found around black holes, neutron stars , white dwarfs, or around ordinary stars (planets are believed to form from an accretion disk around a protostar).
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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neutral
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Visualise the heart of a neutron star, a black hole, a force of great attraction.)
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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neutral
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We can often see the black hole and neutron star, though, with a little help from the companion star.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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neutral
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Why can t dark matter simply be neutron stars and black holes?
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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X-rays Light the Way to Black Holes Black holes and neutron stars can live alone, but often they have a companion.
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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spin of black hole slows down Black holes found as member of binary star system Visible companion usually blue supergiant Visible companion transfers matter to unseen black hole companion Matter forms large accretion disk around black hole;
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The tidal forces near black holes are so great they can actually tear matter from a companion star.
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neutral
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By analyzing the scattering of quarks and gluons, he and his colleagues hope to map the structure of protons and neutrons--two of the most fundamental forms of matter.
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The two main fundamental particles that make up neutrons are quarks and gluons.
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neutral
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Color Charge Quarks and gluons are color-charged particles.
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The two main fundamental particles that make up neutrons are quarks and gluons.
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neutral
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Electrons, proton, neutron, meson, boson, gluon, quark.
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The two main fundamental particles that make up neutrons are quarks and gluons.
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neutral
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In that extraordinary plasma, elementary particles, called quarks and gluons, roam freely like particles in a gas instead of being shackled together into protons and neutrons, as they usually are.
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The two main fundamental particles that make up neutrons are quarks and gluons.
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neutral
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Scientists believe that protons and neutrons are made up of three particles known as quarks, along with the gluons that bind them together.
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The two main fundamental particles that make up neutrons are quarks and gluons.
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Scientists will use data collected during the collisions to explore the particles known as quarks and gluons that make up protons and neutrons.
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The two main fundamental particles that make up neutrons are quarks and gluons.
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Strong force acts between colour charges in quarks and gluons , binding them into protons , neutrons and other particles .
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The two main fundamental particles that make up neutrons are quarks and gluons.
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The nucleus is composed of protons and neutrons, and individual protons and neutrons are composed of quarks and gluons which are bound inside these particles (also called hadrons).
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The two main fundamental particles that make up neutrons are quarks and gluons.
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The only thing that holds the quarks together to make protons and neutrons is energy ( carried by gluons ) .
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The two main fundamental particles that make up neutrons are quarks and gluons.
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The strong nuclear force binds together elementary particles known as quarks and gluons, which make up the protons and neutrons in the atomic nucleus, as well as less stable, more exotic forms of matter.
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The two main fundamental particles that make up neutrons are quarks and gluons.
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Then -- 100,000th of a second after the creation of space and time -- the gluons glued the quarks together to form protons, neutrons and particles called mesons.
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The two main fundamental particles that make up neutrons are quarks and gluons.
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This primordial soup, called a 'quark-gluon plasma', is a mixture of the building blocks of the fundamental particles that make up atomic nuclei.
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The two main fundamental particles that make up neutrons are quarks and gluons.
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neutral
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Resilience can be defined as the ability of ecosystems to resist stresses and shocks, to absorb disturbance and to recover from disruptive change.
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The two parameters used to measure changes in ecosystems are resistance and resilience.
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67. Interventions for Clients with Problems of the Thyroid and Parathyroid Glands
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The two parathyroid glands are located behind the thyroid gland.
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A radical resection of the malignant parathyroid gland and the ipsilateral thyroid lobe was performed in two cases, while only a resection of the involved parathyroid gland in one case.
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The two parathyroid glands are located behind the thyroid gland.
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Care of Patients with Problems of the Thyroid and Parathyroid Glands
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The two parathyroid glands are located behind the thyroid gland.
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Diseases of the thyroid gland and of the parathyroid glands (63).
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The two parathyroid glands are located behind the thyroid gland.
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Diseases of thyroid and parathyroid glands.
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The two parathyroid glands are located behind the thyroid gland.
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Link to graphic showing the location of the thyroid, parathyroids, and other endocrine glands (92K).
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The two parathyroid glands are located behind the thyroid gland.
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The parathyroid glands are located behind the thyroid, and produce parathyroid hormone in response to low blood calcium levels.
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The two parathyroid glands are located behind the thyroid gland.
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The parathyroid glands have no functional relationship to the thyroid gland.
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The two parathyroid glands are located behind the thyroid gland.
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The patient now has two thyroid glands, both of which appear to work, and eight parathyroid glands.
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The two parathyroid glands are located behind the thyroid gland.
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The thyroid and parathyroid glands are stimulated as well.
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The two parathyroid glands are located behind the thyroid gland.
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parts of the thyroid, parathyroid and thymus glands.
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The two parathyroid glands are located behind the thyroid gland.
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neutral
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An independent variable is a factor that is intentionally varied by the experimenter.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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Describe the experimental method, explaining independent and dependent variables, experimental and control groups, and extraneous variables.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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neutral
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Experiments are controlled through the use of independent variables (which can be changed by the experimenter) and dependent variables (which are changes dependent on changes in the independent variable).
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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Five or ten factor experiments are not uncommon, and larger experiments sometimes are done, although controlling and manipulating so many experimental variables at one time can be difficult.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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neutral
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Identify and select experimental variables (independent and dependent) and controlled conditions.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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neutral
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Identify factors, treatments, response variables, and experimental units in an experiment.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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neutral
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If the factor is an independent variable, a slider will appear that will allow you to change the value of the factor.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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neutral
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In this experiment the independent variable (factor) is the amount of practice, called factor A .
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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neutral
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Independent variable The variable controlled or manipulated by the experimenter.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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entails
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Independent variable-- A factor in an experiment that the experimenter systematically manipulates, also a certain trait or characteristic possessed by a subject and selected by the experimenter.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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entails
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Independent variables Those variables controlled by the experimenter.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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entails
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Put the independent variable, which is controlled by the experimenter, on the x axis.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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entails
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The experiment should address a specific hypothesis , and you should consider the important features of experimental design, i.e., independent and dependent variables, proper controls, replication, etc.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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neutral
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The independent variable is that which is controlled or manipulated by the experimenter.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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entails
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YOU DO NOT HAVE TO DO THE EXPERIMENT Make sure that you identify the independent variable , the dependent variable , the control group , the experimental group , the control variables and how you will randomly select your subjects for the experiment.
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The values of independent variables are controlled by the experimenter over the course of an experiment.
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neutral
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Because earthquakes and often volcanoes can be found along all three types of plate boundary, plate tectonic theory not only is important in scientific study it also has significance for people living near those boundaries.
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The vast majority of earthquake occurs along one of three types of plate boundaries.
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entails
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But not all earthquakes occur at plate boundaries.
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The vast majority of earthquake occurs along one of three types of plate boundaries.
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neutral
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Earthquakes away from plate boundaries.
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The vast majority of earthquake occurs along one of three types of plate boundaries.
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neutral
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Plate Boundaries and Earthquake Prediction;
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The vast majority of earthquake occurs along one of three types of plate boundaries.
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neutral
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Relate earthquake risk to plate boundaries.
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The vast majority of earthquake occurs along one of three types of plate boundaries.
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neutral
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The majority of earthquakes worldwide occur at plate boundaries when plates stick and then jump past each other.
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The vast majority of earthquake occurs along one of three types of plate boundaries.
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entails
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Utah is earthquake country and is not a plate boundary.
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The vast majority of earthquake occurs along one of three types of plate boundaries.
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neutral
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assumptions history of the theory modern lithospheric plates plate boundaries plate motions The Wilson Cycle distribution of major rock types earth resources Earthquakes A practical look at earthquakes.
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The vast majority of earthquake occurs along one of three types of plate boundaries.
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neutral
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Basically, the vertebrate skeleton is internal (an endoskeleton) while the arthropod skeleton is external (an exoskeleton).
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The vertebrate endoskeleton can also be called a(n) internal skeleton.
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entails
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In direct contrast to arthropods, which live inside an exoskeleton, vertebrates have evolved a hard internal skeleton, or endoskeleton.
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The vertebrate endoskeleton can also be called a(n) internal skeleton.
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entails
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The axial skeleton can be checked to determine any vertebral pain or abnormalities.
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The vertebrate endoskeleton can also be called a(n) internal skeleton.
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neutral
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The bones of the vertebrate skeleton can be grouped into axial and appendicular components.
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The vertebrate endoskeleton can also be called a(n) internal skeleton.
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neutral
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There is also a complicated "endoskeleton" composed of internal processes, called apodemes, from the inner surface of the exoskeleton.
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The vertebrate endoskeleton can also be called a(n) internal skeleton.
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neutral
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endoskeleton An internal supporting skeleton with muscles on the outside; in vertebrates, consists of the skull, spinal column, ribs, and appendages.
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The vertebrate endoskeleton can also be called a(n) internal skeleton.
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entails
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Angiosperms adapted to the abundance of animal life -- especially insects for pollination and birds for efficient seed dispersal.
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The vivid colors of flowers are an adaptation designed to encourage pollination by animals such as insects and birds.
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neutral
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Experiments on insect pollination to explain flower structure as Adaptations 3.
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The vivid colors of flowers are an adaptation designed to encourage pollination by animals such as insects and birds.
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neutral
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Pollination takes place when insects or birds attracted by the scent and color of the flowers feed off nectar on the stigma or around the base of the ovule.
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The vivid colors of flowers are an adaptation designed to encourage pollination by animals such as insects and birds.
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entails
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The flowers are hermaphroditic, and pollination is by insects.
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The vivid colors of flowers are an adaptation designed to encourage pollination by animals such as insects and birds.
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neutral
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These insects are highly adapted for pollination and use both nectar and pollen from flowers.
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The vivid colors of flowers are an adaptation designed to encourage pollination by animals such as insects and birds.
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neutral
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Calculate dimensions of solid figures.
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The volume of a regularly shaped solid can be calculated from its dimensions.
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neutral
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For regular cross-sectional shapes, the dimensions of the kern can be determined analytically.
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The volume of a regularly shaped solid can be calculated from its dimensions.
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neutral
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K1 can be calculated from flow around solid cylinders where the cylinder dimension is the tow radius.
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The volume of a regularly shaped solid can be calculated from its dimensions.
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neutral
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So by measurement and calculation we can make a start at this by at least getting the dimensions of the squish volume the same for each combustion chamber.
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The volume of a regularly shaped solid can be calculated from its dimensions.
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neutral
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Solid objects that have regular shape can have their volume calculated by measuring their dimensions.
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The volume of a regularly shaped solid can be calculated from its dimensions.
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entails
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