aqueous hydrogen peroxide was mixed with 0.50 g of manganese (IV) oxide. The total volume of oxygen formed was measured every 10 seconds. The results of the experiment are shown in the graph. (i) After how many seconds did the decomposition of hydrogen peroxide finish? (ii) How many moles of oxygen were produced at the end of the decomposition? [At room temperature and pressure one mole of oxygen occupies 24000 cm3.] (iii) Use your answer to (ii) to calculate the concentration‚ in mol/dm3
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the products water and oxygen. To observe this catalase activity I used small amounts of liver samples slightly smaller than the size of a pea to see the reaction when hydrogen peroxide is added to it. In this experiment I exposed the liver samples in three different temperature environments: 3°c‚ 22°c‚ and 75°c. I wanted to measure how much water and oxygen is produced in each environment by measuring the visible bubbles in each test tube. I predicted that water and oxygen production would occur
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Prelim Past questions – Chemical Earth. 1. What is the systematic name for a compound with the formula Cu2SO4? (A) (B) (C) (D) 3. In which compound do all atoms have the same electronic configuration? (A) (B) (C) (D) 4. Copper sulfide Copper (I) sulfate Copper (II) sulfate Copper disulfate LiF NaCl MgF2 NCl3 Identify the property which decreases across each row of the Periodic Table. (A) (B) (C) (D) Melting point Ionisation energy Valency Atomic radius
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Anatomy of the Respiratory System Nose and Nasal Cavity The nose and nasal cavity form the main external opening for the respiratory system and are the first section of the body’s airway—the respiratory tract through which air moves. The nose is a structure of the face made of cartilage‚ bone‚ muscle‚ and skin that supports and protects the anterior portion of the nasal cavity. The nasal cavity is a hollow space within the nose and skull that is lined with hairs and mucus membrane. The function
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Interpretation of the Arterial Blood Gas Self-Learning Packet 2004 This self-learning packet is approved for 2 contact hours for the following professionals: 1. Registered Nurse 2. Licensed Practical Nurse Orlando Regional Healthcare‚ Education & Development Copyright 2004 Arterial Blood Gas Interpretation Table of Contents Purpose ................................................................................................................... 3 Objectives ...........
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nearby soil in its roots. The leaves then take light energy from the Sun‚ which is absorbed in the chlorophyll in the cells and passes it along for it to be used in photosynthesis. Glucose is produced and is converted into Starch to be stored. Oxygen is produced from the water and it is a waste product so it is released into the air. The plant uses Carbon Dioxide and water to create Carbohydrates.
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Assignment 2 front sheet Unit 11 Learner name Assessor name Adama kanu Dr A Carter Teaching starts on Hand out date Student submission deadline Teacher assessment date 29 September 2014 03 October 2014 24 October 2014 28 October 2014 Qualification Unit number and title BTEC Applied Science level 3 Extended National Diploma – medical profile Unit 11: Physiology of human body systems (10 credits‚ 60 hours) Assignment title 2 Assignment 2/4: Physiology of the Cardiovascular and Respiratory Systems (P3
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can be made. Light intensity is one of the factors that affect the rate of photosynthesis and that is what our experiment is based on: Aim: In this experiment we shall investigate how the rate of photosynthesis (measured by the increased volume of oxygen) is affected by changes of light intensity in water plants. Hypothesis: I predict that as the intensity of light increases‚ so will the rate of photosynthesis. Furthermore‚ I hypothesise that if the light intensity increases‚ the rate of photosynthesis
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when they move to a higher energy level? Electron transport chain 12. Electrons found in photosystem I are eventually replaced by electrons from ___photosystem II______. 13. Where does the oxygen come from that is produced in photosynthesis? Water 14. What is the major gas byproduct of photosynthesis? Oxygen 15. ___Photosynthesis_______ occurs in the thylakoid membrane and converts light energy into chemical energy. 16. What process provides the energy to produce ATP molecules?
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of only one kind of atom. A compound is the substance that is made from the atoms of two or more elements that are chemically bonded. Water is an example of a compound because it is one of many compounds that consist of molecules. The hydrogen and oxygen molecules are chemically bonded to form a water molecule. Properties and Changes in Matter Every substance‚ whether an element or compound‚ has characteristic properties. Chemists use these properties to distinguish different substances and then
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