Human Variations in High Altitude Populations Jessyca Caumo 26 november 1996 Thesis:The purpose of this paper is to describe the high altitude stresses and the general adaptations made by the Tibetan population in the Himalayas and the Quechua in the Andes. I Introduction II Background A Quechua People B Tibetan People III General Adaptations A Physical 1 Growth 2 Development 3 Core temperature 4 Extremity temperature B Non- Physical
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assumed that baby Amira is in respiratory distress. Amira is currently receiving 30% flow-by oxygen at 10 minutes old to maintain oxygen saturation (Sa02) levels of 92%. Although the target Sa02 level at 10 minutes old is between 85-90% (Department of Health and Human Services‚ 2014) the fact that Amira is still displaying signs of nasal flaring and moderate work of breathing despite receiving flow-by oxygen is concerning. After conducting a brief initial top to toe assessment‚ weight and length‚ Amira
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Jorge Nuñez Ms. Principe / Period 2 February 8th‚ 2011 Aim: How are we going to determine the empirical formula of a compound? Do Now: 1) What is the percent by mass of oxygen in H2C2O4? H2 = 2(1) = 2 ; C2 = 2(12) = 24 ; O4 = 4(16) = 96 Gram Formula Mass = 90 Percentage of Oxygen = 6490 x 100 = 71% 2) Calculate the percentage of water: -Mass of empty crucible and cover = 11.7g -Mass of crucible‚ cover‚ and hydrate before heating = 14.9g -Mass of crucible‚ cover‚ and
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CO2 4) ___ GaBr3 + ___ Na2SO3 ( ___ Ga2(SO3)3 + ___ NaBr 5) ___ SnO + ___ NF3 ( ___ SnF2 + ___ N2O3 Using the equation from problem 2 above‚ answer the following questions: 6) If I do this reaction with 35 grams of C6H10 and 45 grams of oxygen‚ how many grams of carbon dioxide will be formed? 7) If 35 grams of carbon dioxide are actually formed from the reaction in problem 6‚ what is the percent yield of this reaction? Exam Review Sheet #1 Balancing
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movements. The skeletal system and the muscle system maintain to posture and produce heat for the body. Increased blood supply: As people start to exercise the muscles will start wanting more oxygen to work faster so it can produce more energy at a faster rate‚ to keep up with the movement in the muscles. The oxygen in our red cells and the other nutrients are stored in the muscles to supply these muscles with energy which is called (glucose.) When people do short exercises such as running for a short
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As the subject enters the exercise phase there is an increased metabolic demand due to the heightened workload of the skeletal muscles and organ systems. In order to accommodate this rise in oxygen demand there must be an increase in the subject’s minute ventilation. The rise in minute volume‚ with exercise‚ could be accomplished by increasing the volume of each breath‚ the tidal volume‚ increasing the respiratory rate or by some combination of the two. In the subject’s case it was a combination
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oceans + used to form marine organism shells which were compacted to form sedimentary rock - plants evolved to photosynthesise‚ takingin co2 + releasing oxygen - scientists don’t kno where all nitrogen came from bc they weren’t there to record evidence but most theories suggest it ws due 2 volcanoes atmosphere today - nitrogen 78% - oxygen 21% - co2 0.04% - argon 0.9% - other gases v small amounts gas levels - co2 rises due to burning fossil fuels + deforestation - co rises due to incomplete
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occurs. The equation for photosynthesis is 6 CO2 + 6H2O + light energy=C6H12O6 + 6O2 meaning that when a plant cell absorbs carbon dioxide and water alongside sunlight then the plant will put off glucose and oxygen gas in result. This process is where humans and other heterotrophs get their oxygen to survive. Sunlight is captured through a pigment called chlorophyll‚ which absorbs every color light wave expect green‚
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Body temperature When we exercise the body has to work harder‚ the body temperature would increase this is due to organs having to work harder to get oxygen to muscles. The metabolic rate that produces more energy has to increase in order for more energy to be released. The heart has to pump more blood around the body in order to deliver oxygen to the working muscles so they can carry on working at that capacity. What mechanisms are there to cool the body down? Sweating-glands are stimulated
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cardio-respiratory system to remove the waste products and carbon dioxide from the cells and provide more oxygen for the working cells. This surge of extra energy that is needed requires the heart to pump faster and harder in order to increase the volume of blood being pumped there is an increase in beats per minute. A redistribution of blood can be given out to supply the areas with a higher demand for oxygen and away from the areas of less demand‚ this is done via the vascular system. In order to do this
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