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VOLATILE ORGANIC COMPOUND means any chemical compound which contains the element carbon, except methane, carbon monoxide, carbon dioxide, carbonic acid, metallic carbides or carbonates, ammonium carbonate, and exempt compounds.
Binary compounds of carbon with less electronegative elements are called carbides.
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VOLATILE ORGANIC COMPOUNDS (VOC) is any volatile compound containing the element carbon, excluding carbon monoxide, carbon dioxide, carbonic acid, metallic carbides or carbonates, methane, and exempt compounds.
Binary compounds of carbon with less electronegative elements are called carbides.
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With CVD, it is possible to produce almost any metallic or non-metallic element, including carbon and silicon, as well as compounds such as carbides, nitrides, borides, oxides, intermetallics and many others.
Binary compounds of carbon with less electronegative elements are called carbides.
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carbides (compounds of carbon and heavy metals), nitrides (compounds of nitrogen), borides (compounds of boron), and silicides (compounds of silicon).
Binary compounds of carbon with less electronegative elements are called carbides.
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cementite, sometimes called iron carbide, a hard compound of iron and carbon and other carbide-forming elements;
Binary compounds of carbon with less electronegative elements are called carbides.
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chemical compounds of carbon excluding carbon monoxide, carbon dioxide, carbonic acid, metallic carbides, metallic carbonates, and ammonium carbonate
Binary compounds of carbon with less electronegative elements are called carbides.
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Biofuels Program The Biofuels Program at the National Renewable Energy Laboratory (NREL) develops cost effective, environmentally friendly technologies for converting biomass into alternative transportation fuels and fuel additives.
Biomass can also be processed to make biofuel.
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Biofuels can contribute to an energy mix of environmentally-sound, domestic fuels.
Biomass can also be processed to make biofuel.
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Biofuels for Sustainable Transportation (Biofuels Transportation Kit) ( PDF 513 KB ) Biomass is an attractive energy source, and transportation fuels made from biomass offer a number of benefits.
Biomass can also be processed to make biofuel.
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Biofuels include fuels derived from biomass conversion, as well as solid biomass, liquid fuels and various biogases.
Biomass can also be processed to make biofuel.
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Biofuels, used as gasoline blends or as neat fuels, can reduce this source of pollution.
Biomass can also be processed to make biofuel.
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Cellulase is used in the fermentation of biomass into biofuels, although this process is relatively experimental at present.
Biomass can also be processed to make biofuel.
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However, second generation biofuel processes is slowly being implemented in order to extend the amount of biofuel that can be produced sustainably by using biomass consisting of the residual non-food parts of current crops, such as stems, leaves and husks.
Biomass can also be processed to make biofuel.
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Land-based biomass grown and harvested specifically for liquid biofuels represents a long-term approach to energy plantations that can supply large amounts of fossil fuel substitutes.
Biomass can also be processed to make biofuel.
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Paper is a biofuel which can reduce the need for fossil fuels such as oil and coal.
Biomass can also be processed to make biofuel.
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Sunflower oil can be a suitable biofuel, its efficiency not far from diesel fuel, indicates a good combustion process confirmed by exhausts emission levels.
Biomass can also be processed to make biofuel.
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The other major indirect process using sunlight is conversion of biomass to biofuel using photosynthetic organisms;
Biomass can also be processed to make biofuel.
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These can be used as fuel or to produce other biofuels such as methanol.
Biomass can also be processed to make biofuel.
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They also want to streamline the process to make their biofuels.
Biomass can also be processed to make biofuel.
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Unlike other renewable energy sources, biomass can be converted directly into liquid fuels, called biofuels, to meet our transportation needs.
Biomass can also be processed to make biofuel.
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Birds evolved from reptiles some 60 million years ago, and in that time the humble scales of the lizard-like ancestor of the bird (archaeopteryx) have been transformed into the staggering diversity and beauty that we now know as the plumage of modern birds.
Birds evolved from reptile ancestors.
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Birds evolved from reptiles, and a connecting link to their reptilian ancestors can sometimes be seen in their scaly legs.
Birds evolved from reptile ancestors.
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Evolutionists tell us that reptiles evolved into birds.
Birds evolved from reptile ancestors.
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Mammals and birds, which both descended from reptile-like ancestors, evolved endothermy, or the ability to regulate body temperature from the inside.
Birds evolved from reptile ancestors.
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No birds, reptiles or amphibians are confined to this habitat type.
Birds evolved from reptile ancestors.
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Reptiles evolved from amphibian ancestors by Permian period.
Birds evolved from reptile ancestors.
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That includes birds (which descended from dinosaurs) but not mammals (which evolved from mammal-like reptiles) or, curiously, Mesosaurs (a group of extinct aquatic reptiles), both groups having diverged from the reptilian lineage before the common ancestor of recent reptiles evolved.
Birds evolved from reptile ancestors.
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oldest know reptiles; evolved during the Early Pennsylvanian; ancestors of all other reptiles, thus commonly called the stem reptiles
Birds evolved from reptile ancestors.
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Blood comes into the right atrium from the body, goes to the right ventricle, then into the pulmonary artery which carries the blood to the lungs to be oxygenated.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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Blood first enters the heart at the right atrium, which then empties blood into the right ventricle, which pumps the blood into the lungs through the pulmonary artery to get oxygen.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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Blood, depleted in oxygen, flows from the veins into the right atrium, then to the right ventricle to be pumped through the pulmonary artery to the lungs.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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If the swelling were from heart failure, it would have to be that her right ventricle, the chamber of the heart that pumps blood into the lungs, was failing.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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Oxygenated blood leaves the blood vessels of the lungs and enters the left atrium of the heart, goes to the ventricle and is pumped out of the heart into the aorta.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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The blood goes into the right atrium and then to the right ventricle, where it is then pumped to the lungs to dispose of wastes and receive a fresh oxygen supply.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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The right atrium collects blood and the right ventricle then pumps it to the lungs where it is oxygenated.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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The right atrium pumps the blood to the right ventricle, which pumps it to the lungs.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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The right atrium receives blood return from the body ( systemic ) under low pressure, pumps the blood into the right ventricle under low pressure which then pumps blood under slightly higher pressure to the lungs.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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The right pumping chamber of the heart (right ventricle) pumps blood to the lungs to become rich in oxygen again and acquire a pink color.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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The right side of the heart (atrium and ventricle) is responsible for sending 'deoxygenated' blood from the body to the lungs, while the left side of the heart accepts blood from the lungs (which is now 'oxygenated') and pumps it throughout the body.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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The right ventricle assumes the role of the dominant pumping chamber, supplying blood to both the body and lungs.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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The right ventricle receives oxygen-poor blood from the right atrium and pumps it to the lungs through the pulmonary artery.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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The two chambers at the bottom are the left and right ventricles, sometimes known as the pumping chambers as they are responsible for pumping the blood to the lungs and the body.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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Through this connection, a clot entering the heart can travel from the right atrium to the left atrium, where blood flows into the left ventricle and is then pumped into the aorta.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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With each beat, the right ventricle pumps deoxygenated blood to the lungs, and the left ventricle pumps oxygenated blood to the body.
Blood from the body enters right atrium of the heart before it is pumped to the right ventricle and then to the lungs.
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Blood consists of 45% red blood cells, less than 1% white blood cells and platelets, and 55% plasma.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Blood consists of a liquid (plasma) and several kinds of blood cells, including red cells, white cells, and platelets.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Blood consists of plasma, red blood cells, white blood cells and platelets.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Blood consists of plasma, red blood cells, white blood cells, and platelets.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Blood is a mixture of red cells, white cells, plasma, platelets, water and more.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Blood is composed of plasma, red and white blood cells, and platelets.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Blood is composed of plasma, water and cellular components (red blood cells, white blood cells and platelets).
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Blood's four main ingredients are plasma, red cells, white cells, and platelets.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Blood- composed of plasma, erythrocytes (red blood cells), leucocytes (white blood cells) and platelets.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Commonly only components of the blood, such as red blood cells, white blood cells, plasma, clotting factors, and platelets are used.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Composition Of Blood Blood consists of red and white cells, blood platelets and watery plasma (serum).
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Hematology, Coagulation, and Urinalysis focuses on the study of blood components (white blood cell, red blood cells, platelets, and plasma), blood-forming tissues, and clotting factors.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Home Keystage 3 scheme of work Blood Blood consists of plasma, red blood cells, platelets and white blood cells p156.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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It is composed of red blood cells, platelets, plasma and white blood cells, collectively referred to as blood components.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Live cell analysis is an excellent means of viewing by microscope the red blood cells, white blood cells, platelets, and blood plasma, just as they function in the body.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Red Blood Cells White Blood Cells Plasma Platelets 6.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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The blood, consisting of plasma, red and white blood cells and platelets, carries food to the cells and carries away waste.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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The colorless fluid of the blood, or plasma, carries the red and white blood cells, platelets, waste products, and various other cells and substances.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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The plasma allows the circulation of red blood cells, white blood cells, and platelets.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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The red blood cells , white blood cells , and platelets are all suspended in the plasma of the blood.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Whole blood is made up of plasma, red blood cells, white blood cells and platelets.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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Whole blood, the blood that circulates in the body, contains plasma, red blood cells, white blood cells and platelets.
Blood is made up of red blood cells, white blood cells, platelets, and plasma.
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All cells, including immune cells such as lymphocytes, are produced in the bone marrow (the soft, fatty tissue found in bone cavities).
Bone marrow is found inside many bones and produces lymphocytes.
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B- cells are lymphocytes, produced in the bone marrow and spleen, that fight infection primarily by maturing into plasma cells, which secrete antibodies.
Bone marrow is found inside many bones and produces lymphocytes.
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Lymphocytes are also produced in the bone marrow.
Bone marrow is found inside many bones and produces lymphocytes.
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Lymphocytes are cells produced by the body's primary (bone marrow and thymus) and secondary (lymph nodes and spleen) lymphatic organs.
Bone marrow is found inside many bones and produces lymphocytes.
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Lymphocytes are made in the bone marrow and other organs.
Bone marrow is found inside many bones and produces lymphocytes.
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Lymphocytes are produced in the bone marrow.
Bone marrow is found inside many bones and produces lymphocytes.
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Lymphocytes are produced within bone marrow (a primary lymphoid organ).
Bone marrow is found inside many bones and produces lymphocytes.
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stem cells Cells in bone marrow that produce lymphocytes by mitotic division.
Bone marrow is found inside many bones and produces lymphocytes.
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stem cells  Cells in bone marrow that produce lymphocytes by mitotic division.
Bone marrow is found inside many bones and produces lymphocytes.
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6-8 weeks are needed for organizations to file all necessary paperwork.
By 8 weeks, all major organs start developing.
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8 weeks The beginnings of all major body organs are formed.
By 8 weeks, all major organs start developing.
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8 weeks of development).
By 8 weeks, all major organs start developing.
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8 weeks starting in June.
By 8 weeks, all major organs start developing.
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A CHILD THAT HAS ALL IT'S ORGANS IT NEEDS BY 8 WEEKS.
By 8 weeks, all major organs start developing.
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A growing baby with all organs and body systems in place (8 weeks).
By 8 weeks, all major organs start developing.
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After all, all of its major organs ( including its brain ) are fully developed as early as 8 weeks after conception.
By 8 weeks, all major organs start developing.
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All the baby s major organs begin to develop in the first 6 to 8 weeks of pregnancy, so tight control from the moment of conception is critical.
By 8 weeks, all major organs start developing.
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Although classes start Sept. 8, all first-year MBA students (MBA1s) must complete a one-week orientation program known as the Leadership Development Program (LDP).
By 8 weeks, all major organs start developing.
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An 8-week summer field course required of all geology majors.
By 8 weeks, all major organs start developing.
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An orientation week, and a consolidation week are to be shared by all disciplines, with the development of a synchronous 8 week rural health term.
By 8 weeks, all major organs start developing.
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At 8 weeks start AROM.
By 8 weeks, all major organs start developing.
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Bloom and fruit development were delayed by 6 to 8 weeks in all districts.
By 8 weeks, all major organs start developing.
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For the first 8 weeks, the embryo will develop almost all of the tissues and organs present in the adult before entering the fetal period of development during weeks 9 through 38.
By 8 weeks, all major organs start developing.
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He stressed that the majority of nevirapine-associated rashes occur within the first 6-8 weeks of starting therapy ( Figure 8 ).
By 8 weeks, all major organs start developing.
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How many people are aware that 18 days after a baby is conceived its heart is beating, in the 6th week after conception brainwaves can be detected and after 8 weeks ALL ORGANS ARE FUNCTIONING EXCEPT THE LUNGS.
By 8 weeks, all major organs start developing.
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In all, he devotes about 8 hours a week to the organization.
By 8 weeks, all major organs start developing.
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It may take many weeks or months for symptoms to develop although it is usually 2-8 weeks.
By 8 weeks, all major organs start developing.
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Kittens develop a mottled look at around 8 weeks of age as the lighter undercoat starts to develop.
By 8 weeks, all major organs start developing.
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Modules will only be organized if a minimum of 8 participants have registered for the module at least two weeks before the start of the module.
By 8 weeks, all major organs start developing.
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Of the approximately 70 percent that will start regrowing their hair, the majority should notice new hair in 8 to 12 weeks .
By 8 weeks, all major organs start developing.
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Remember, the tournament starts in 8 weeks so we need to get organized.
By 8 weeks, all major organs start developing.
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Seed started indoors develops suitable transplants in 8 to 10 weeks.
By 8 weeks, all major organs start developing.
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Starting week 8, all students will attend the CS and VCD sessions.
By 8 weeks, all major organs start developing.
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Starts April 8 (9 weeks) Back to Top Karate Karate Adaptable to all ages and body types, Isshinryu karate is an Okinawan style of karate characteristic in the development of rapid technique.
By 8 weeks, all major organs start developing.
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