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In holography, there are two basic waves that come together to create the interference pattern.
Constructive interference is when two waves combine to create a larger wave.
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Interactive Java Tutorial Interference of Light Explore how two light waves can combine to produce interference with one another.
Constructive interference is when two waves combine to create a larger wave.
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Spherical waves emerge behind the two slits and create an interference pattern.
Constructive interference is when two waves combine to create a larger wave.
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Standing waves and interference in waves.
Constructive interference is when two waves combine to create a larger wave.
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The opposite of this is when the two waves create deconstructive interference essentially canceling out the waves.
Constructive interference is when two waves combine to create a larger wave.
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Two sources of disturbance create two sets of concentric waves that form an interference pattern at points where the waves overlap.
Constructive interference is when two waves combine to create a larger wave.
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When the crest of one wave joins the crest of the other wave, the two waves form an extra large crest--constructive interference.
Constructive interference is when two waves combine to create a larger wave.
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When the crests of one wave coincide with the crests of another wave, interference is constructive and a large wave results.
Constructive interference is when two waves combine to create a larger wave.
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When waves combine to make a larger wave the effect is called constructive interference;
Constructive interference is when two waves combine to create a larger wave.
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click here to interference movie click here to see a wave experiment The dark and light regions are called interference fringes, the constructive and destructive interference of light waves.
Constructive interference is when two waves combine to create a larger wave.
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i Wave Upon Wave graphically illustrates the interference between two waves.
Constructive interference is when two waves combine to create a larger wave.
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Back to recipes Grounding Soup Introduction It's called grounding soup because it puts you back in touch with the richness of the earth.
Grounding is when you touch a charged object to the earth.
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Once a charged object touches the earth, it immediately loses its charges, Again, once this happens the object is said to be grounded because electrons either flow from the charged object into the ground or vice versa.
Grounding is when you touch a charged object to the earth.
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Removing the charge on an object by redirecting the current to the earth is known as grounding the object.
Grounding is when you touch a charged object to the earth.
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Soil , earth , grounded , are words that are about being in touch with earth and therefore reality.
Grounding is when you touch a charged object to the earth.
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When the positively-charged electroscope is touched, its charge becomes grounded (or neutralized).
Grounding is when you touch a charged object to the earth.
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While measuring, touch a grounded object frequently to avoid too much buildup of charge.
Grounding is when you touch a charged object to the earth.
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use an understanding of conductors and insulators to explain in terms of electrons what happens when objects are charged by friction, contact, and induction or grounded by touching.
Grounding is when you touch a charged object to the earth.
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An early or primary oocyte ( primordial follicle) is surrounded by a single layer of granulosa cells separated by a basement membrane from Thecal cells.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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Biological membranes surround cells and serve to keep the insides separated from the outsides.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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Cell biology Membrane structure and composition.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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Chromosomes are separated using the tracks of the microtubules, and the cell divides by pulling in its surrounding membrane, causing a cleavage furrow.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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If you chill the fruit too much, areas of the membrane simply become too viscous and the cell membranes lose their ability to keep the different cellular compartments separate.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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In the Biologic-DT System, the membrane keeps the sorbent separate from the blood.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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Integrated with membrane transport in Cell Biology.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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It is embedded in a nerve cell's membrane and serves as a sort of biological antenna to pick up signals from other nerve cells.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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Journal of Cell Membrane Biology.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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See Absorption (biology) , Cell membranes
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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The cell wall surrounds the cell membrane .
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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The membrane surrounding all tissue cells requires a strong level of Omega 3 fatty acid to keep it in a high performance state.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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This course covers membrane biology and basic cell biology.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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cell structure and membrane biology.
Biological membranes surround cells and serve to keep the insides separated from the outsides.
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All plants excrete oxygen through photosynthesis
Oxygen is made by trees and other plants during photosynthesis.
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Autotrophs, such as trees and other green plants, use photosynthesis to convert carbon dioxide during primary production, releasing oxygen in the process.
Oxygen is made by trees and other plants during photosynthesis.
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Cloudy days slow down photosynthesis, in which aquatic plants are in the process of to make oxygen, making less oxygen available.
Oxygen is made by trees and other plants during photosynthesis.
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Green plants conduct photosynthesis to make their food, and oxygen is a by-product of this process.
Oxygen is made by trees and other plants during photosynthesis.
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Green plants release oxygen underwater during photosynthesis.
Oxygen is made by trees and other plants during photosynthesis.
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Healthy plants give off oxygen during photosynthesis.
Oxygen is made by trees and other plants during photosynthesis.
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On the other hand, photosynthesis also gave rise to a whole class of organisms that ate plants and consumed oxygen -- a form of negative feedback.
Oxygen is made by trees and other plants during photosynthesis.
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Oxygen A gas that exists naturally in the atmosphere and is produced by plants during photosynthesis that humans and other animals breathe.
Oxygen is made by trees and other plants during photosynthesis.
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Oxygen is produced by algae and other plants in the presence of sunlight through a process called photosynthesis .
Oxygen is made by trees and other plants during photosynthesis.
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Plant photosynthesis breaks the carbon dioxide in two, keeping the carbon to form the carbohydrates that make up the plant, and putting the oxygen into the air.
Oxygen is made by trees and other plants during photosynthesis.
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Planting trees can go a long way toward reducing global warming because trees convert carbon dioxide (and water) into sugar and oxygen during photosynthesis.
Oxygen is made by trees and other plants during photosynthesis.
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Plants convert carbon dioxide into oxygen as a byproduct of photosynthesis.
Oxygen is made by trees and other plants during photosynthesis.
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SUMMARY Photosynthesis is the process by which plants make glucose, oxygen and carbon dioxide which all people need to survive.
Oxygen is made by trees and other plants during photosynthesis.
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Sunlight falling on the leaves of Plants causes the chloroplasts in them to make Food and Oxygen through Photosynthesis.
Oxygen is made by trees and other plants during photosynthesis.
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The algae is continually making oxygen during the process of photosynthesis.
Oxygen is made by trees and other plants during photosynthesis.
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The oxygen originates as a byproduct of photosynthesis by plants.
Oxygen is made by trees and other plants during photosynthesis.
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Trees and other green plants absorb carbon dioxide and produce oxygen through photosynthesis, whereas animals breathe in oxygen and breathe out carbon dioxide.
Oxygen is made by trees and other plants during photosynthesis.
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Trees produce oxygen as a byproduct through the photosynthesis process.
Oxygen is made by trees and other plants during photosynthesis.
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reverse photosynthesis (plants also begin to use oxygen, as the sun-light decreases) and many other interesting areas of study.
Oxygen is made by trees and other plants during photosynthesis.
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Electricity, Magnetism, & Electromagnetism Tutorial.
Electromagnetism is magnetism produced by an electrical current.
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Electricity, magnetism & electromagnetism ;
Electromagnetism is magnetism produced by an electrical current.
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Electromagnet (see also Electromagnetism) An electromagnet is a controllable temporary magnet created by passing an electric current though a coil of insulated wire.
Electromagnetism is magnetism produced by an electrical current.
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Bones and Skeletal Tissues.
Skeletal tisse is muscle tissue that is attached to the bone called.
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Sarcomas include cancers that originate from connective tissues such as bone and cartilage (such as osteosarcoma, or bone cancer) or from muscle tissues (such as rhabdomyosarcoma, or a malignant tumor in skeletal muscle).
Skeletal tisse is muscle tissue that is attached to the bone called.
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Skeletal muscle tissue is attached to bones, is striated,and is voluntary.
Skeletal tisse is muscle tissue that is attached to the bone called.
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The mesoderm forms skeletal muscle, bone, connective tissue, the heart, and the urogenital system.
Skeletal tisse is muscle tissue that is attached to the bone called.
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biomechanics of muscle and skeletal tissue;
Skeletal tisse is muscle tissue that is attached to the bone called.
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Atherosclerosis is a disease process which narrows and blocks the arteries, resulting in heart attacks, strokes, kidney failure, and peripheral vascular disease.
A heart attack or stroke is often a result of untreated atherosclerosis.
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Children that have abnormally high serum levels of homocysteine, if untreated, often die of strokes and heart attacks before reaching adulthood.
A heart attack or stroke is often a result of untreated atherosclerosis.
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Chlamydia pneumoniae infection has been linked to atherosclerosis, heart attack and stroke.
A heart attack or stroke is often a result of untreated atherosclerosis.
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If untreated, they often die of heart attack or stroke before reaching adulthood.
A heart attack or stroke is often a result of untreated atherosclerosis.
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Left untreated, it can lead to amputation, heart attacks, and strokes.
A heart attack or stroke is often a result of untreated atherosclerosis.
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Such is the case with atherosclerosis, which is a degenerative condition that results in the blocking of an artery due to a build up of plaque, eventually leading to a probable heart attack or stroke.
A heart attack or stroke is often a result of untreated atherosclerosis.
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The result is often a stroke, heart attack, or death.
A heart attack or stroke is often a result of untreated atherosclerosis.
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The result is too much sugar in the blood, leading to diabetes with all it attendant complications -- blindness, heart attacks, atherosclerosis, strokes, kidney failure and nerve damage.
A heart attack or stroke is often a result of untreated atherosclerosis.
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They go untreated until they're felled by a stress-induced heart attack or stroke.
A heart attack or stroke is often a result of untreated atherosclerosis.
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Untreated, hypertension prematurely ages the body's arteries and can lead to strokes, heart attacks and kidney failure, often without warning.
A heart attack or stroke is often a result of untreated atherosclerosis.
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While studies in animals demonstrate that vitamin E decreases atherosclerosis, supplementation studies in humans investigating the effects on heart attacks and strokes have resulted in conflicting outcomes.
A heart attack or stroke is often a result of untreated atherosclerosis.
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atherosclerosis , or hardening of the arteries, which can lead to heart attacks and strokes .
A heart attack or stroke is often a result of untreated atherosclerosis.
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A sheet of cellulose acetate containing crystals of an iodine compound which are all oriented in one direction.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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Cellulose is probably the single most common organic moleculeon the surface of the planet because it is the major structuralpolysaccharide of all land plants.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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Cellulose is the most abundant organic compound on the planet and is the predominant component of plant cell walls.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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Fungi are the most important decomposers of structural plant compounds (cellulose and lignin but note that lignin is not broken down when oxygen is absent).
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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Introduction Cellulose, the basic structural component of all plants, is the most abundant, naturally occurring organic compound.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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One cellulose ether plant has three cellulose ether operations (hydroxyethyl cellulose, hydroxypropyl cellulose, and carboxymethyl cellulose operations).
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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Strains of this species appear able to produce ethanol, acetate, carbon dioxide, and hydrogen gas by fermentation of cellulose, polygalacturonic acid, and other compounds common in plant biomass.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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Termites feed primarily on the cellulose and lignin found in plant cell walls; these compounds are the main ingredients of wood and all paper products.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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The microfibrils in higher plants are made of cellulose, the most abundant macromolecule on Earth.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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The most common of this type of membrane are cellulose acetate and Cuprophane.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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To these compounds belong, i.a., all kinds of starch, which constitute such an important part of our food, and also cellulose , the building material of the plants, which represents the most complicated form of the carbohydrates.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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With these advances, it should be possible to solve the biochemical puzzle of cellulose assembly in higher plants.
Cellulose is one of the most common biochemical compounds on earth and is found in all plants.
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As they say, energy can never be destroyed.
Energy it can not be destroyed.
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Conservation of energy energy can neither be created or destroyed.
Energy it can not be destroyed.
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ENERGY CANNOT BE CREATED OR DESTROYED, BUT IT CAN BE CONVERTED FROM ONE FORM INTO OTHER FORMS WITH NO NET LOSS OF ENERGY.
Energy it can not be destroyed.
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Energy can be changed but it cannot be destroyed.
Energy it can not be destroyed.
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Energy can be converted from one form to another, but energy cannot be lost or destroyed.
Energy it can not be destroyed.
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Energy can neither be created nor destroyed- only converted, the energy is simply converted from one format to another.
Energy it can not be destroyed.
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Energy can neither be created or destroyed.
Energy it can not be destroyed.
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Energy can neither be enacted nor destroyed, but it can change from one form to another.
Energy it can not be destroyed.
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Energy can not be created or destroyed, but the form of Energy can be changed.
Energy it can not be destroyed.
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Energy can not be created or destroyed.
Energy it can not be destroyed.
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Energy cannot be created or destroyed but it can be changed from one form to another.
Energy it can not be destroyed.
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Energy cannot be created or destroyed, but it can be changed from one form to another.
Energy it can not be destroyed.
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Forms of ENERGY can be transferred from one form to another, but Energy cannot be created or destroyed.
Energy it can not be destroyed.
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In the first law of energy, energy can be changed from one form into another but it cannot be created or destroyed.
Energy it can not be destroyed.
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Is one of the only things you can do to your computer to damage or destroy it.
Energy it can not be destroyed.
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It can destroy one's perception.
Energy it can not be destroyed.
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It states that energy can be converted from one form to another, but it can neither be created or destroyed.
Energy it can not be destroyed.
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