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If the cell has two sets of chromosomes and the DNA is normal the cells is called diploid and is normally slower growing.
A diploid cell is a cell with two chromosomes.
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In diploid cells chromosomes are in pairs ( homologouschromosomes or homologues);
A diploid cell is a cell with two chromosomes.
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Its cells contain the diploid number of chromosomes.
A diploid cell is a cell with two chromosomes.
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Somatic cells having two of each chromosome are said to be diploid .
A diploid cell is a cell with two chromosomes.
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The fusion of the two cells creates a zygote (a diploid cell which contains the full number of chromosomes an organism needs).
A diploid cell is a cell with two chromosomes.
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This cell is called a diploid cell.
A diploid cell is a cell with two chromosomes.
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This diploid cell restores the diploid number of chromosomes.
A diploid cell is a cell with two chromosomes.
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diploid (2n) cell A cell, such as a body cell, that contains two similar sets of chromosomes, one from each parent.
A diploid cell is a cell with two chromosomes.
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diploid The number of chromosomes in most cells of the body.
A diploid cell is a cell with two chromosomes.
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diploid The state of having each chromosome in two copies per nucleus or cell.
A diploid cell is a cell with two chromosomes.
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diploid cell A cell which contains two sets of chromosomes.
A diploid cell is a cell with two chromosomes.
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half of the original number of chromosomes, if the parental cell was diploid (having two sets of chromosomes in a full complement of chromosomes).
A diploid cell is a cell with two chromosomes.
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monosomic A diploid cell missing a single chromosome .
A diploid cell is a cell with two chromosomes.
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A chain of volcanoes (volcanic arc) that sometimes forms on the land when an oceanic plate collides with a continental plate and then slides down underneath it ( subduction ).
A volcano chain is formed by subduction of oceanic crust beneath a continental or oceanic plate.
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A chain of volcanoes pushed through the continental crust parallel to the deep trench, fed by magma rising from the subducting oceanic plate as it entered Earth's hot interior.
A volcano chain is formed by subduction of oceanic crust beneath a continental or oceanic plate.
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A model for a subduction zone begins to take shape then, of the water-saturated oceanic plate subducting and partially melting, forming on the surface, a chain of composite volcanoes within an andesitic magmatic arc which is convex oceanward.
A volcano chain is formed by subduction of oceanic crust beneath a continental or oceanic plate.
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Oceanic - Continental Plate Boundary oceanic crust _____ continental crust _____ asthenosphere _____ upper mantle _____ trench _____ subduction complex _____ continental interior _____ magma _____ volcanic arc _____ volcano _____ II.
A volcano chain is formed by subduction of oceanic crust beneath a continental or oceanic plate.
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Volcanoes are associated with convergent boundaries, where ocean plates are subducted under ocean or continental plates, with spreading boundaries, where new ocean plates are created, and with hot spots .
A volcano chain is formed by subduction of oceanic crust beneath a continental or oceanic plate.
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Volcanoes occur where plates are subducted (an ocean plate pushed under a continental or another oceanic plate) or move apart (mid-ocean ridges or rifts in continents).
A volcano chain is formed by subduction of oceanic crust beneath a continental or oceanic plate.
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A complex or coordination compound is a compound consisting either of complex ions with other ions of opposite charge or of a neutral complex species.
Iconic compounds have a net neutral charge.
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All compounds will be neutral so the charge of the cations must equal the charge of the anions.
Iconic compounds have a net neutral charge.
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And while quarks have color charge, composite particles made out of quarks have no net color charge (they are color neutral ).
Iconic compounds have a net neutral charge.
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Anytime an object gains a net charge, it will try to become more neutral.
Iconic compounds have a net neutral charge.
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As an example, 2,4-dichlorophenol with a pK a of 7.8 can exist either as the neutral compound or as the corresponding base with a net negative charge depending on the surrounding pH.
Iconic compounds have a net neutral charge.
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Atoms prefer to have a neutral charge and will swap electrons to become neutral.
Iconic compounds have a net neutral charge.
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Charge neutralization.
Iconic compounds have a net neutral charge.
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Charge the net.
Iconic compounds have a net neutral charge.
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Dicationic compounds have two positively charged ends held together by a neutrally charged chemical linker group.
Iconic compounds have a net neutral charge.
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H owever when we get into harder degrees of writing these ionic reactions we have to put together elements that have different charges and in order to make the compound neutral we have to balance the charges and change the subscripts.
Iconic compounds have a net neutral charge.
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If the sum of the oxidation numbers of the elements and the charges on polyatornic ions in that compound equal 0, then it is a neutral compound.
Iconic compounds have a net neutral charge.
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Ionic compounds always form in such a way that the resulting formula units have an overall neutral charge.
Iconic compounds have a net neutral charge.
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Neutral Having no electric charge .
Iconic compounds have a net neutral charge.
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Neutrons are neutral -- they have a charge of 0.
Iconic compounds have a net neutral charge.
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Neutrons are neutral because they have no charge.
Iconic compounds have a net neutral charge.
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Neutrons are neutral particles that have no electric charge.
Iconic compounds have a net neutral charge.
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Neutrons have no charge, they are neutral.
Iconic compounds have a net neutral charge.
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Rhenium is the only metal known to bond with seven fluorides, which is the record for number of charged ligands for a charge-neutral metal compound.
Iconic compounds have a net neutral charge.
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The compound, FeCl 3 , has no net charge, and one must assume that the positive charge of the iron ion in the compound must be equal to the total negative charge of (-3).
Iconic compounds have a net neutral charge.
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These compounds have both positively and negatively charged components.
Iconic compounds have a net neutral charge.
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These data are interpreted to indicate that the charged compounds have a greater hemolytic potency than neutral compounds.
Iconic compounds have a net neutral charge.
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This means they have no net color charge.
Iconic compounds have a net neutral charge.
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Use the correct combination of ions to produce a compound with a net charge of zero.
Iconic compounds have a net neutral charge.
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Yes, a molecule can have a neutral charge and be polar.
Iconic compounds have a net neutral charge.
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You no longer have to dump a proton for charge neutrality;
Iconic compounds have a net neutral charge.
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have a net negative charge
Iconic compounds have a net neutral charge.
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A hydroelectric power station is located at the dam and the flow of water is used to generate electricity.
You can generate hydroelectric power with the energy found in flowing water.
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All available resources, including fossil fuels, hydroelectric power and nuclear energy are utilized for the generation of electrical energy.
You can generate hydroelectric power with the energy found in flowing water.
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HYDROELECTRIC ENERGY PRODUCTION TABLE 1 Country Annual Water Power's Hydroelectric Share in Total Energy production Production of (billions of Electrical Energy kilowatt hours) (
You can generate hydroelectric power with the energy found in flowing water.
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HYDROELECTRIC Identifies a type of generating station where falling water turns a turbine-generator to produce electrical energy.
You can generate hydroelectric power with the energy found in flowing water.
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Hydroelectric Generating electricity by conversion of the energy of running water.
You can generate hydroelectric power with the energy found in flowing water.
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Hydroelectric Plant Diagram Hydroelectric plants use water as the source of energy to generate electricity.
You can generate hydroelectric power with the energy found in flowing water.
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Hydroelectric facilities convert the kinetic energy of falling water into electrical energy, which can be conveniently carried by wires to its place of use (see power, electric ).
You can generate hydroelectric power with the energy found in flowing water.
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Hydroelectric power is derived by converting the potential energy of water to electrical energy using a hydraulic turbine connected to a generator.
You can generate hydroelectric power with the energy found in flowing water.
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Hydroelectric power plants are located in areas where the potential energy from falling water can be harnessed for moving turbines and the generation of power.
You can generate hydroelectric power with the energy found in flowing water.
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Hydroelectric power plants convert the energy contained in flowing water, like rivers and streams, into electricity.
You can generate hydroelectric power with the energy found in flowing water.
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Hydroelectric power was the cheapest energy to be generated.
You can generate hydroelectric power with the energy found in flowing water.
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In modern practice, water flowing from a higher level to a lower level (as from a dam or waterfall) is used to activate a turbine that drives an electric generator, a process called hydroelectric power generation.
You can generate hydroelectric power with the energy found in flowing water.
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Stored water can later be used to augment river flows downstream for such purposes as recreation, navigation and hydroelectric power generation.
You can generate hydroelectric power with the energy found in flowing water.
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These hydroelectric power stations use the flow of water to generate some or all of the electricity they produce.
You can generate hydroelectric power with the energy found in flowing water.
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Water flowing through a dam also generates hydroelectric power.
You can generate hydroelectric power with the energy found in flowing water.
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Yet, hydroelectric power -- electricity generated by flowing water -- is a growing power resource here.
You can generate hydroelectric power with the energy found in flowing water.
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hydroelectric plant electric power plant in which the energy of falling water is used to spin a turbine generator to produce electricity.
You can generate hydroelectric power with the energy found in flowing water.
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hydroelectric power water use--the use of water in the generation of electricity at plants where the turbine generators are driven by falling water.
You can generate hydroelectric power with the energy found in flowing water.
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But that kind of kinetic energy is intermittent.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Electrical energy is a kind of kinetic energy.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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If the only result is deformation and no work goes into thermal, sound, or kinetic energy , then all the work is initially stored in the deformed object as some form of potential energy.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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In this case, the total kinetic energy is (97) Always include both kinds of kinetic energy in energy conservation calculations.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Internal Energy is the total kinetic energy of all the atoms and molecules inside an object.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Kinetic energy (motion) is converted into thermal energy (heat).
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Kinetic energy is the energy of an object in motion.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Kinetic energy is the energy of motion, that is, the energy that all moving objects possess.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Previous lecture Energies There are all kinds of energies, but they are usefully divided into Kinetic and Potential .
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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The atoms in matter have kinetic energy.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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The kinetic energies of individual atoms vary in an object.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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The kinetic energy of the objects in a material.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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The rotational energy or angular kinetic energy is the kinetic energy due to the rotation of an object and is part of its total kinetic energy.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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The total mechanical energy that an object has is the sum of its translational (linear) kinetic energy and its angular (rotational) kinetic energy.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Thermal energy (heat energy) is the total kinetic energy of atoms and molecules that are constantly in motion.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Thermal energy does not refer to the motion of an object as a whole (that is, kinetic energy).
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Thermal energy is the total kinetic energy of all the particles in a system.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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These two effects (lowered electrostatic potential energy and lowered kinetic energy) reduce the total energy when the two atoms touch.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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This principle applies to thermal energy as well as kinetic energy.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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Total energy is the sum of kinetic energy and potential energy.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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kinetic energy -energy of motion of an object.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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potential, kinetic, and thermal energy all interact and exchange the total amount of force available to the skater.
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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the ratios of thermal, magnetic and kinetic energies;
Thermal energy constitutes the total kinetic energy of all the atoms that make up an object.
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A neutron fired into a nucleus can cause nuclear fission (the splitting of atoms).
Nuclear energy is released when the nucleus of an atom is split.
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As the nuclear reactor operates, uranium atoms fission (split apart) and release energy.
Nuclear energy is released when the nucleus of an atom is split.
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In this process, explosive nuclear fusion burns matter into the most stable atomic nucleus, iron, and releases a gigantic amount of energy.
Nuclear energy is released when the nucleus of an atom is split.
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Nuclear energy is released by splitting the nucleus of the atom into pieces.
Nuclear energy is released when the nucleus of an atom is split.
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Nuclear energy is released by the splitting of the nucleus of an atom.
Nuclear energy is released when the nucleus of an atom is split.
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The process is called nuclear fission, because it is the atomic nucleus that is split.
Nuclear energy is released when the nucleus of an atom is split.
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The sub-atomic particle constituents of the nucleus (all undiscovered until the 1930's, and therefore unknown to Einstein as of 1905 or 1916) are released in nuclear fusion and fission reactions as high-velocity and therefore high-energy particles of various kinds.
Nuclear energy is released when the nucleus of an atom is split.
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When the nucleus of an atom splits, nuclear energy is produced in the form of heat energy and light energy.
Nuclear energy is released when the nucleus of an atom is split.
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Asteroid families and collisional processes 6.
Haumea is part of the a collisional family.
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Because 2002 TX300 is a member of the Haumea family, it is assumed to have an albedo of around 0.7, which would result in a diameter of about 360 mi .
Haumea is part of the a collisional family.
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But the family is a part of it.
Haumea is part of the a collisional family.
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Family, your kind of family.
Haumea is part of the a collisional family.
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Haumea has eight other confirmed family members.
Haumea is part of the a collisional family.
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Haumea is the largest member of its collisional family, a group of astronomical objects with similar physical and orbital characteristics thought to have formed when a larger progenitor was shattered by an impact.
Haumea is part of the a collisional family.
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