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How the three common states of matter, solid, liquid, and gas, may be described by their shape and volume.
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Solid takes neither the shape nor the volume of its container.
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In the solid state, matter occupies fixed volume and has fixed shape.
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Solid takes neither the shape nor the volume of its container.
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SOLID STATE A substance in the solid state has both a fixed shape and volume.
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Solid takes neither the shape nor the volume of its container.
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SOLID State of matter with a definite volume and definite shape.
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Solid takes neither the shape nor the volume of its container.
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SOLID The form of matter that has a definite shape and a definite volume.
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Solid takes neither the shape nor the volume of its container.
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Solid matter keeps its own shape regardless of its container, and keeps the same volume.
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Solid takes neither the shape nor the volume of its container.
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Solids are a form of matter that has a definite shape and volume.
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Solid takes neither the shape nor the volume of its container.
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Solids have definite shape and volume, liquids have definite volume and assume the shape of the container, gases expand to fill and take volume and shape of the container.
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Solid takes neither the shape nor the volume of its container.
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The formal definition from our dictionary of science is "A state of matter between a solid and a gas, in which the shape of a given mass depends on the containing vessel, the volume being independent.
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Solid takes neither the shape nor the volume of its container.
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This collective state of matter is neither a solid nor a liquid.
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Solid takes neither the shape nor the volume of its container.
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solid 1 A state that retains shape independent of the shape of the container it occupies.
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Solid takes neither the shape nor the volume of its container.
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From the right atrium, blood goes to the right ventricle, which pumps it to the lungs where it is replenished with oxygen.
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The right atrium receives oxygen-poor blood from the body, then pumps the blood into the right ventricle.
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However, there was the question of how the blood flowed from the right ventricle of the heart to the left ventricle, before the blood is pumped to the rest of the body.
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The right atrium receives oxygen-poor blood from the body, then pumps the blood into the right ventricle.
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Right Ventricle This chamber of the heart receives deoxygenated blood from the right atrium and pumps it towards the lungs where the blood is then enriched with oxygen.
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The right atrium receives oxygen-poor blood from the body, then pumps the blood into the right ventricle.
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Right ventricle pumps blood to the lungs to be oxygenated.
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The right atrium receives oxygen-poor blood from the body, then pumps the blood into the right ventricle.
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The blood that is returned to the right atrium is deoxygenated (poor in oxygen) and passed into the right ventricle to be pumped through the pulmonary artery to the lungs for re-oxygenation and removal of carbon dioxide.
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The right atrium receives oxygen-poor blood from the body, then pumps the blood into the right ventricle.
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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.
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The right atrium receives oxygen-poor blood from the body, then pumps the blood into the right ventricle.
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The right atrium receives de-oxygenated blood from the systemic circulation and pumps it to the ventricle c.
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The right atrium receives oxygen-poor blood from the body, then pumps the blood into the right ventricle.
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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.
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The right atrium receives oxygen-poor blood from the body, then pumps the blood into the right ventricle.
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the left ventricle receives oxygen-rich blood from the left atrium and pumps it to the body through the aorta.
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The right atrium receives oxygen-poor blood from the body, then pumps the blood into the right ventricle.
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But your skeleton isn't just a hard, lifeless structure that keeps you up-right--it is living, growing tissue that supports muscles, protects vital organs and provides a reservoir for calcium, a mineral that's essential for various vital functions.
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The skeleton supports the body, protects internal organs, produces blood cells, and maintains mineral homeostasis.
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They have a key function in all body systems, including building the skeleton, teeth, skin, hair and red blood cells, maintaining body water homeostasis, and ensuring the proper functioning of many metabolic processes.
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The skeleton supports the body, protects internal organs, produces blood cells, and maintains mineral homeostasis.
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Argon that was dissolved in the magma and that may have originated from the mantle of the Earth or by outgassing of old K-bearing minerals of the crust 2.
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Magma comes toward earth's crust through mantle plumes.
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In relation to the Hawaiian hot spot located in the pacific plate we found out that the Hawaiian islands and emperor seamounts were formed by magma rising from mantle plumes in the earth's crust, which has caused a drift of the newly risen crust.
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Magma comes toward earth's crust through mantle plumes.
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The cause of this volcanic activity was a mantle plume, a large scale convective system, bringing heat and magma from near the Earth's core to the crust.
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Magma comes toward earth's crust through mantle plumes.
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The production of large quantities of magma, variously attributed to mantle plumes or to extensional tectonics, further pushed sea levels up, so that large areas of the continental crust were covered with shallow seas.
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Magma comes toward earth's crust through mantle plumes.
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Throughout the history of the earth, continental and oceanic crust have been created by magma formation in the deep earth's mantle, and mixed into the mantle by subduction at the ocean trenches.
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Magma comes toward earth's crust through mantle plumes.
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Use of radiogenic isotopes and trace elements as tracers to study the age and petrogenesis of lavas and magmas, with applications to the geochemical evolution of the earth's crust and mantle.
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Magma comes toward earth's crust through mantle plumes.
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d) The mixing of magmas from the mantle and the crust.
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Magma comes toward earth's crust through mantle plumes.
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Based on your knowledge of the hormonal regulation of the female reproductive system, give a more complete explanation of why RU486 leads to loss of the fetus.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Best known for its ability to normalize and balance female sex hormones and the reproductive system, it is beneficial for the relief of cramps and delayed menustration.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Estrogens, or female sex hormones, stimulate cells of your breasts and reproductive system to divide and proliferate.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Explains the structure and function of the male and female reproductive systems and shows the reproductive process from conception to birth.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Female gonads are the ovaries , which produce eggs (ova) and female sex hormones.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Females have paired accessory glands, which supply lubricants to the reproductive system and secrete protein-rich egg shells.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Identify the organs of the male and female reproductive systems, describe their structure and function and summarize hormonal controls.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Illustrate the structure of the female reproductive system.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Proglottids, or segments of the tapeworm that contain a complete reproductive system-both male and female sex organs, start producing eggs via sexual reproduction.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Role of sex hormones and cytokines in regulating the mucosal immune system in the female reproductive tract.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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The lesson describes the important structures in the male and female reproductive system, and how a zygote turns into an embryo and fetus.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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The organs of the female reproductive system are specialized to produce ova (eggs), transport the egg cells to the site of fertilization, to provide a favorable environment for developing embryos, and to move offspring outside of the body (birth) at the appropriate time.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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The ovaries are part of the endocrine system and produce estrogen and progesterone, female sex hormones.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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The structure of the female reproductive system in the Chalcididae (Hym.).
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Their secret is the rapid rate or reproduction and large amounts of eggs the female is able to produce.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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produces eggs and female hormones.
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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system of organs that produces gametes and secretes sex hormones
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The female reproductive system consists of structures that produce eggs, secrete female sex hormones, and ultimately enable birth of a fetus.
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Acetylcholine plays numerous roles in the nervous system.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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Adrenergic receptors form the interface between the sympathetic nervous system and the cardiovascular system and play a critical role in the regulation of cardiovascular function.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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Chemokines also play fundamental roles in the development, homeostasis, and function of the immune system, and they have effects on cells of the central nervous system as well as on endothelial cells involved in angiogenesis or angiostasis.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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For example, go over the nervous system when learning about the circulatory system since the nervous system plays a big role in regulating the circulation and heart.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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For example, it plays a key role in the developing nervous system.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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It is the function of the nervous system to maintain this homeostasis.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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Our results indicate a unique distribution pattern for IRP1 and IRP2 expression, suggesting distinct roles for IRP1 and IRP2 in the regulation of iron homeostasis in the mammalian nervous system.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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Overall, this protein plays a role in nervous system development.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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Polyunsaturated fatty acids play a critical role in the structure and function of the developing nervous system.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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Purified water lacks minerals and ions such as calcium that play key roles in biological functions such as in nervous system homeostasis, and are normally found in potable water.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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Responding to the renin-angiotensin system Like the nervous system, the RAS plays a key role in regulating CO.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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The autonomic nervous system (ANS) is responsible for maintaining homeostasis.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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The nervous system maintains homeostasis by controlling and regulating the other parts of the body.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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The sympathetic nervous system plays a secondary role for the CBF.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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The sympathetic nervous system plays a secondary role.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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The third division of the autonomic nervous system, the enteric system , is primarily involved in controlling gastrointestinal motility, gastric secretion, fluid transport, etc., and therefore clearly plays a central role in maintaining homeostasis.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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These results indicated that Nuk plays a critical and unique role in the pathfinding of specific axons in the mammalian central nervous system.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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They play an important role in the function of the nervous system.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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They will specifically be looking at the sympathetic nervous system and the role it plays.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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This molecule has received widespread attention for its critical role in regulating blood pressure, nervous system functions and the immune system.
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The nervous system plays a critical role in the regulation of vascular homeostasis.
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Cardiovascular System The cardiovascular system delivers oxygen, hormones, nutrients and white blood cells around the body by pumping blood, and it removes waste products.
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The cardiovascular system transports many substances to and from cells throughout the body.
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Cell Culture Studies In cell culture studies of the immune system, cells are isolated from their normal interactions with other body systems such as the neuroendocrine, cardiovascular, and musculoskeletal systems.
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The cardiovascular system transports many substances to and from cells throughout the body.
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Covers the functional organization of the human body, concepts of homeostatic control, cell functions and energy metabolism, and the muscular, nervous, and cardiovascular systems.
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The cardiovascular system transports many substances to and from cells throughout the body.
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Endothelial cells are found lining all blood vessels in the body and play several important roles in the cardiovascular system.
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The cardiovascular system transports many substances to and from cells throughout the body.
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Having too many of these free radicals in the body can cause cell damage that can lead to cancer and other illnesses such as cardiovascular disease and immune system malfunctions.
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The cardiovascular system transports many substances to and from cells throughout the body.
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However, NO produced in the body helps regulate cell function and communication, particularly in the cardiovascular system.
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The cardiovascular system transports many substances to and from cells throughout the body.
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In short, breathing directly impacts every cell in the body, and assists in modulation of the nervous, cardiovascular, and digestive systems, to name a few.
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The cardiovascular system transports many substances to and from cells throughout the body.
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In the periphery, it is highly expressed in platelets and many cell types of the cardiovascular system, in fibroblasts, and in neurons of the peripheral nervous system.
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The cardiovascular system transports many substances to and from cells throughout the body.
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It begins with cell physiology and then continues through all of the body systems, including nervous, endocrine, digestive, cardiovascular, respiratory, and urinary systems.
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The cardiovascular system transports many substances to and from cells throughout the body.
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It is an antioxidant which assists the body in copeing with stress by providing the cells with oxygen and maintaining a healthy cardiovascular system.
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The cardiovascular system transports many substances to and from cells throughout the body.
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Research on physiology of nervous, cardiovascular or respiratory system and on biophysics of cell membranes and membrane transport, as agreed to by student and faculty member.
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The cardiovascular system transports many substances to and from cells throughout the body.
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The cardiovascular system is responsible for transporting nutrients and removing gaseous waste from the body.
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The cardiovascular system transports many substances to and from cells throughout the body.
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The substance may cause effects on the cardiovascular system.
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The cardiovascular system transports many substances to and from cells throughout the body.
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Your cardiovascular system becomes more efficient and your body develops more capillaries to better transport oxygen.
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The cardiovascular system transports many substances to and from cells throughout the body.
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Your cardiovascular system transports important substances such as oxygen and nutrients between tissues and organs.
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The cardiovascular system transports many substances to and from cells throughout the body.
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599 half-life The time it takes for half the isotopes in a sample of an element to decay into a second isotope.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
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A half-life is the amount of time needed for one half the atoms of a radioactive isotope to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
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But decay rates are fixed, resulting in a characteristic, unchanging half-life for each isotope that is the time needed for one-half of the isotope to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
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Define halflife as the amount of time required for half of the parent isotopes to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
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H H half-life The time for the activity of a radioactive isotope to decay to half its original value.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
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Half Life Half-life describes the time it takes for half the numbers of isotopes of an atom to undergo decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
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Half-life is the amount of time it takes for half of the amount of a substance to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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In nuclear reactions, the half-life is the amount of time required for one-half of the radioactive nuclei in a sample to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
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Sometimes, the rate of dissipation (or any other decay process that behaves like this) is described in terms of its half-life , the time it takes for half of the amount to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
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The amount of time it takes for half of a sample of radioactive material to decay into a stable substance in this way is called the half-life.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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The amount of time it takes for half of a sample of radioactive material to decay into a stable substance is called its half-life .
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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The decay rate of each radioactive isotope is stated in terms of its half-life , which is the time in years that it takes for one-half of the original parent to decay into the daughter .
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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The half life being the time it takes for one half of the material originally present to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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The half life is the time period for half of the material to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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The half-life (t ½ ) is the time it takes for half the isotope to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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The half-life is defined as the time required for half of the atoms of a particular isotope to decay.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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The half-life is the amount of time it takes for one half of the initial amount of the parent, radioactive isotope, to decay to the daughter isotope.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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The half-life is the time required for half of a given number of parent isotopes to decay to a daughter isotope.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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The half-life is the time required for one-half of the atoms of the isotope to decay into a different element.
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The term half-life decribes the amount of time required for half of the original material to decay in an isotope.
| 1entails
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