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Power- Rate at which energy is released or consumed (expressed in watts).
The rate that energy is released is known as power.
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Powers are released (or come to be) in contact with appropriate conditions and energies.
The rate that energy is released is known as power.
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Releases Passion, Power, Energy, Sexuality.
The rate that energy is released is known as power.
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The energy release best indicates the destructive power of an earthquake.
The rate that energy is released is known as power.
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The power of a song is a release of energy that comes from me.
The rate that energy is released is known as power.
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The rate at which this energy is released is proportional to the Kelvin temperature (T) raised to the fourth power.
The rate that energy is released is known as power.
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The rate of energy usage is power .
The rate that energy is released is known as power.
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The released energy is what powered the thunderstorms and tornadoes.
The rate that energy is released is known as power.
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Then harness the massive energy release for power... 19.
The rate that energy is released is known as power.
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Then harness the massive energy release for power.... 26.
The rate that energy is released is known as power.
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There is an immense release of energy, a power able to transform in such events.
The rate that energy is released is known as power.
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They can release the energy in gasoline by burning it to power automobiles.
The rate that energy is released is known as power.
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This process releases the energy that powers our bodies.
The rate that energy is released is known as power.
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Who knows but there is a lot of power and energy in this.
The rate that energy is released is known as power.
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the chemical energy released by this reaction is what powers the machine.
The rate that energy is released is known as power.
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As discussed in Woman's Body, the surge of LH during a menstrual cycle triggers the release of a ripened egg from a follicle within the ovaries.
The release of an egg from an ovary, is part of the menstrual cycle.
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Between the two ovaries, one mature egg is released during each normal menstrual cycle.
The release of an egg from an ovary, is part of the menstrual cycle.
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During each menstrual cycle one of the ovaries should release one egg.
The release of an egg from an ovary, is part of the menstrual cycle.
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During each menstrual cycle, a woman's ovaries release an egg.
The release of an egg from an ovary, is part of the menstrual cycle.
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During each monthly menstrual cycle, an egg is released from one ovary.
The release of an egg from an ovary, is part of the menstrual cycle.
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During each normal menstrual cycle, one egg (ovum) is usually released from one of the ovaries, about 14 days after the last menstrual period.
The release of an egg from an ovary, is part of the menstrual cycle.
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E ach month during the menstrual cycle an egg is released from one ovary.
The release of an egg from an ovary, is part of the menstrual cycle.
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Each month during your menstrual cycle, an egg is released from one ovary and goes down a fallopian tube to the uterus.
The release of an egg from an ovary, is part of the menstrual cycle.
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Each month, during the menstrual cycle , an egg is released from one ovary.
The release of an egg from an ovary, is part of the menstrual cycle.
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It is the phase of a female's menstrual cycle when an egg(ovule) is released from the ovaries.
The release of an egg from an ovary, is part of the menstrual cycle.
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Ovulation, when one or more eggs is released from the ovary, is considered the fertile part of your menstrual cycle .
The release of an egg from an ovary, is part of the menstrual cycle.
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The menstrual cycle is controlled by mechanisms involving hormones released by the hypothalamus, the pituitary, and the ovaries.
The release of an egg from an ovary, is part of the menstrual cycle.
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The ovaries of female reproductive organs produce and release an ovum or egg each month during the menstrual cycle.
The release of an egg from an ovary, is part of the menstrual cycle.
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This syndrome is associated with high hormone levels and the failure of the ovaries to release an egg during the menstrual cycle, a symptom more often associated with menopause.
The release of an egg from an ovary, is part of the menstrual cycle.
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EXOCYTOSIS Bulk transport of materials out of a cell.
The reverse process of moving material into a cell is the process of exocytosis.
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Exocytosis Endocytosis Process of exporting macromolecules from a cell by fusion of vesicles with the plasma membrane.
The reverse process of moving material into a cell is the process of exocytosis.
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For Exocytosis protein is moved out of the cell.
The reverse process of moving material into a cell is the process of 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 reverse process of moving material into a cell is the process of exocytosis.
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It is implicated in a number of cell processes, including exocytosis and also cell migration and growth.
The reverse process of moving material into a cell is the process of 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 reverse process of moving material into a cell is the process of exocytosis.
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This process is called exocytosis .
The reverse process of moving material into a cell is the process of exocytosis.
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This process of exocytosis at the front of the cell and endocytosis elsewhere has been modified by Bretscher.
The reverse process of moving material into a cell is the process of exocytosis.
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This process of exporting materials out of the cell is usually referred to as exocytosis or secretion .
The reverse process of moving material into a cell is the process of exocytosis.
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a process of directed exocytosis to kill infected target cells.
The reverse process of moving material into a cell is the process of 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 reverse process of moving material into a cell is the process of 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 reverse process of moving material into a cell is the process of exocytosis.
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insulin stimulation causes the rapid exocytosis of Glut4 vesicles to the cell surface in a process known as translocation.
The reverse process of moving material into a cell is the process of exocytosis.
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process complementary to exocytosis 4.
The reverse process of moving material into a cell is the process of exocytosis.
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In the secondary cell wall, the cellulose microfibrils are criss-crossed and are impregnated with lignin, both of which make secondary cell walls very hard and rigid.
The secondary wall contains lignin , a secondary cell component in plant cells that have completed cell growth/expansion.
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The strength of the secondary cell wall is due to the presence of lignin, a complex organic molecule, and gives plants enough rigidity to grow vertically (we will see plant cells in detail in class).
The secondary wall contains lignin , a secondary cell component in plant cells that have completed cell growth/expansion.
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Electron density and the merging energy level relationship for hydrogen atom is given by;
The spectrum is made up of discrete lines representing transitions of the hydrogen electron between specific energy levels within the atom.
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Hydrogen Atom ( energy levels, wave-particle duality for electron ) 6.
The spectrum is made up of discrete lines representing transitions of the hydrogen electron between specific energy levels within the atom.
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It turns out that a photon of wavelengths 656 nm has just the right energy to cause an electron of a hydrogen atom to make a transition from the second to the third orbit.
The spectrum is made up of discrete lines representing transitions of the hydrogen electron between specific energy levels within the atom.
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Line spectrum Spectral lines are produced by transitions of electrons within atoms or ions.
The spectrum is made up of discrete lines representing transitions of the hydrogen electron between specific energy levels within the atom.
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The orbit and energy levels of the two particles are similar to that of the hydrogen atom (electron and proton).
The spectrum is made up of discrete lines representing transitions of the hydrogen electron between specific energy levels within the atom.
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This diagram indicates the particular energy levels associated with a Hydrogen atom and some of the different transitions which its single electron can make.
The spectrum is made up of discrete lines representing transitions of the hydrogen electron between specific energy levels within the atom.
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b) (4 pts) Lyman-beta represents an absorbed photon whose energy makes a neutral Hydrogen atom's electron jump from level 1 to level 3.
The spectrum is made up of discrete lines representing transitions of the hydrogen electron between specific energy levels within the atom.
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In the seed plants , the Gymnosperms and flowering plants (Angiosperms), the sporophyte phase is more prominent than the gametophyte , and is the familiar green plant with its roots, stem, leaves and cones or flowers.
The sporophyte phase is the longest phase in the life of a(n) gymnosperm.
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Life Cycle In the gymnosperms and the flowering plants, the sporophyte generation is dominant with the gametophyte contained in and dependent on the sporophyte.
The sporophyte phase is the longest phase in the life of a(n) gymnosperm.
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ACUTE EXPOSURE- Contact with concentrated sulfuric acid may cause severe second and third degree skin burns with necrosis due to its affinity for water and subsequent severe dehydrating action, and its exothermic reaction with moisture.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Because the hydration of sulfuric acid is thermodynamically favorable and the affinity of it for water is sufficiently strong, sulfuric acid is an excellent dehydrating agent.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Concentrated sulfuric acid has a very strong affinity for water and reacts to rapidly dehydrate and attack both flesh and clothing, so it must be handled with care.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Corrosive chemicals include strong acids and bases, as well as oxidizing and dehydrating agents.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Corrosives can be categorized as strong acid, strong base, dehydrating agent, oxidizing agent or water-reactive.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Cyclhexanol can be dehydrated in strong sulfuric acid to cyclohexene.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Examples of dehydrating agents include concentrated sulphuric acid which can remove water from a molecule, because of its high affinity for water.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Moreover, as concentrated sulfuric acid has a strong dehydrating property, it can remove tissue paper via dehydrating process as well.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Perchlorates should not be used as drying agents if there is any possibility of contact with organic compounds or of proximity to a dehydrating acid strong enough to concentrate the perchloric acid (e.g., a drying train that has a bubble counter containing sulfuric acid).
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Strong acids, strong bases, strong dehydrating agents, and strong oxidizing agents tend to be corrosive.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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Such chemicals commonly include strong acids or bases in concentrated form, dehydrating agents, or oxidizing agents.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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The major classes of corrosives include strong acids, bases, and dehydrating agents.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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When the water concentration falls (due to distillation or addition of a dehydrating agent), the acid becomes an extremely strong oxidising agent and can react explosively with organic materials.
The strong affinity of concentrated sulfuric acid for water makes it a good agent for dehydrating.
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62-65 Both aerobic and resistance exercises are likely to play important therapeutic roles in the prevention and rehabilitation from wasting processes.
The structure of mitochondrion plays an important role in aerobic respiration.
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Aerobic respiration Paramount to appreciation of respiration, is an understanding of the role of the TCA cycle.
The structure of mitochondrion plays an important role in aerobic respiration.
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Aerobics and strength conditioning programs play an accepted and important role in the development of proper physical fitness for individuals of all ages.
The structure of mitochondrion plays an important role in aerobic respiration.
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Analyzing the structural basis of fumarate respiration is important for understanding other types of respiration, such as the aerobic respiration that occurs in human cells.
The structure of mitochondrion plays an important role in aerobic respiration.
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Both anaerobic and aerobic processes are found to play important roles in degrading the contaminant mass present at this site.
The structure of mitochondrion plays an important role in aerobic respiration.
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Cytochrome C is an enzyme that plays an important role in the metabolism of aerobic cells.
The structure of mitochondrion plays an important role in aerobic respiration.
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Cytochrome c, a protein that plays an important role in aerobic respiration, is an example of a protein commonly used as a molecular clock.
The structure of mitochondrion plays an important role in aerobic respiration.
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Describe the mitochondrion and its role in aerobic respiration.
The structure of mitochondrion plays an important role in aerobic respiration.
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Describe the role of oxygen in the process of aerobic respiration.
The structure of mitochondrion plays an important role in aerobic respiration.
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Even though it is not indicated on this diagram, there is another extremely important step in aerobic respiration.
The structure of mitochondrion plays an important role in aerobic respiration.
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It is important to remember that both plants and animals make use of aerobic respiration .
The structure of mitochondrion plays an important role in aerobic respiration.
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Krebs Cycle If oxygen is available to support aerobic respiration, reactions occur subsequent to glycolysis within the mitochondrion (especially associated with the inner mitochondrial membrane).
The structure of mitochondrion plays an important role in aerobic respiration.
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Nitrogen also plays an important role in aerobic and anaerobic processes;
The structure of mitochondrion plays an important role in aerobic respiration.
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Photosynthesis and respiration play an important role in the carbon cycle and are at equilibrium with one another.
The structure of mitochondrion plays an important role in aerobic respiration.
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Such structures are incapable of supporting warm-blooded respiration and the aerobic requirements of flight.
The structure of mitochondrion plays an important role in aerobic respiration.
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The explanation that accompanies the diagrams includes the facts that cell respiration takes place in the mitochondrion, the inner membrane is where the aerobic reactions take place, and the mitochondria are believed to have evolved from prokaryotes because they have their own DNA.
The structure of mitochondrion plays an important role in aerobic respiration.
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The role of electron carriers in aerobic respiration.
The structure of mitochondrion plays an important role in aerobic respiration.
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These generally rely on the oxidation-reduction cycling and play an important role in respiration.
The structure of mitochondrion plays an important role in aerobic respiration.
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This muscle plays an important role in respiration, swallowing and speech.
The structure of mitochondrion plays an important role in aerobic respiration.
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This structure plays an important role in aerobic respiration.
The structure of mitochondrion plays an important role in aerobic respiration.
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mitochondria in eucaryotes, a subcellular organelle that conducts cellular respiration mitochondrion Membrane-bounded organelle that specializes in aerobic respiration (oxidative phosphorylation) and produces most of the ATP in eukaryotic cells.
The structure of mitochondrion plays an important role in aerobic respiration.
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AE310 Thermodynamics Thermodynamics is a study of energy and energy transfers in the form of work and heat, and the effect these transfers have on the properties of selected substances.
The study of energy and energy transfer involving physical matter is called thermodynamics.
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An initial study of the phenomena and concepts of classical and modern physics in the areas of mechanics including energy and momentum principles, and heat and thermodynamics, with applications involving elementary calculus.
The study of energy and energy transfer involving physical matter is called thermodynamics.
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Equilibrium thermodynamics studies transformations of matter and energy in systems at or near thermodynamic equilibrium.
The study of energy and energy transfer involving physical matter is called thermodynamics.
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Heat Transfer, Thermodynamics, and Energy Systems.
The study of energy and energy transfer involving physical matter is called thermodynamics.
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In addition, Physics Honors will explore selections from thermodynamics, rotational motion and forces, and waves and energy transfer.
The study of energy and energy transfer involving physical matter is called thermodynamics.
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The physics of atmospheres is explored, including treatment of general & local circulation, thermodynamics, cloud formation, radiative transfer and energy budgets.
The study of energy and energy transfer involving physical matter is called thermodynamics.
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The study of matter and energy interactions is called Thermodynamics .
The study of energy and energy transfer involving physical matter is called thermodynamics.
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Thermodynamics studies the effects of changes in temperature, pressure, and volume on physical systems on the macroscopic scale, and the transfer of energy as heat.
The study of energy and energy transfer involving physical matter is called thermodynamics.
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Typical subfields in physics are the study of the dynamics of motion, energy, heat and thermodynamics, sound, electricity and magnetism, optics and laser physics, atomic and nuclear physics, astrophysics, condensed matter physics and elementary particles.
The study of energy and energy transfer involving physical matter is called thermodynamics.
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heat and mass transfer, thermodynamics, combustion, energy systems;
The study of energy and energy transfer involving physical matter is called thermodynamics.
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For atoms, the change of kinetic energy changes their size and the inter atomic distance in molecules.
The sum of the kinetic and potential energies of a system’s atoms and molecules is called internal energy.
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For this reason, kinetic energy of molecules is called thermal energy.
The sum of the kinetic and potential energies of a system’s atoms and molecules is called internal energy.
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