Download Sherman Siu - Module 3 - Chemical Monitoring and Management.pdf PDF

TitleSherman Siu - Module 3 - Chemical Monitoring and Management.pdf
TagsAtmosphere Of Earth Ozone Chemical Bond Chemical Reactions
File Size1.1 MB
Total Pages27
Table of Contents
                            3.1 The Work of Chemists
	3.1.1 Outline the role of a chemist employed in a named industry or enterprise, identifying the branch of chemistry undertaken by the chemist and explaining a chemical principle that the chemist uses
	3.1.2 Identify the need for collaboration between chemists as they collect and analyse data
	3.1.3 Gather, process and present information from secondary sources about the work of practising scientists identifying the variety of chemical occupations and a specific chemical occupation for a more detailed study
	3.1.4 Describe an example of a chemical reaction such as combustion, where reactants form different products under different conditions and thus would need monitoring
3.2 Monitoring in Industry – The Haber Process
	3.2.1 Identify and describe the industrial uses of ammonia
	3.2.2 Identify that ammonia can be synthesised from its component gases, nitrogen and hydrogen
	3.2.3 Describe that synthesis of ammonia occurs as a reversible reaction that will reach equilibrium
	3.2.4 Identify the reaction of hydrogen with nitrogen as exothermic
	3.2.5 Explain that the use of a catalyst will lower the reaction temperature required and identify the catalyst(s) used in the Haber process
	3.2.6 Explain why the rate of reaction is increased by higher temperatures
	3.2.7 Explain why the yield of product in the Haber process is reduced at higher temperatures using Le Chatelier’s principle
	3.2.8 Analyse the impact of increased pressure on the system involved in the Haber process
	3.2.9 Explain why the Haber process is based on a delicate balancing act involving reaction energy, reaction rate and equilibrium
	3.2.10 Explain why monitoring of the reaction vessel used in the Haber process is crucial and discuss the monitoring required
	3.2.11 Gather and process information from secondary sources to describe the conditions under which Haber developed the industrial synthesis of ammonia and evaluate its significance at that time in world history
3.3 Chemical Analysis
	3.3.1 Deduce the ions present in a sample from the results of tests
	3.3.2 Perform first-hand investigations to carry out a range of tests, including flame tests, to identify the following ions: phosphate, sulfate, carbonate, chloride, barium, calcium, lead, copper, iron
	3.3.3 Gather, process and present information to describe and explain evidence for the need to monitor levels of one of the above ions in substances used in society
	3.3.4 Describe the use of atomic absorption spectroscopy (AAS) in detecting concentrations of metal ions in solutions and assess its impact on scientific understanding of the effects of trace elements
	3.3.5 Gather, process and present information to interpret secondary data from AAS measurements and evaluate the effectiveness of this in pollution control
	3.3.6 Identify data, plan, select equipment and perform first-hand investigations to measure the sulfate content of lawn fertiliser and explain the chemistry involved
	3.3.7 Analyse information to evaluate the reliability of the results of the above investigation and to propose solutions to problems encountered in the procedure
3.4 Atmospheric chemistry and ozone
	3.4.1 Describe the composition and layered structure of the atmosphere
	3.4.2 Identify the main pollutants found in the lower atmosphere and their sources
	3.4.3 Describe ozone as a molecule able to act both as an upper atmosphere UV radiation shield and a lower atmosphere pollutant
	3.4.4 Describe the formation of a coordinate covalent bond
	3.4.5 Demonstrate the formation of coordinate covalent bonds using Lewis electron dot structures
	3.4.6 Compare the properties of the oxygen allotropes O2 and O3 and account for them on the basis of molecular structure and bonding
	3.4.7 Compare the properties of the gaseous forms of oxygen and the oxygen free radical
	3.4.8 Identify and name examples of isomers (excluding geometrical and optical) of haloalkanes up to eight carbon atoms
	3.4.9 Identify the origins of chlorofluorocarbons (CFCs) and halons in the atmosphere
	3.4.10 Analyse the information available that indicates changes in atmospheric ozone concentrations, describe the changes observed and explain how this information was obtained
	3.4.11 Present information from secondary sources to write the equations to show the reactions involving CFCs and ozone to demonstrate the removal of ozone from the atmosphere
	3.4.12 Discuss the problems associated with the use of CFCs and assess the effectiveness of steps taken to alleviate these problems
	3.4.13 Present information from secondary sources to identify alternative chemicals used to replace CFCs and evaluate the effectiveness of their use as a replacement for CFCs
3.5 Monitoring the Water Supply
	3.5.1 Identify that water quality can be determined by considering concentrations of common ions, total dissolved solids, hardness, turbidity, acidity, dissolved oxygen and biochemical oxygen demand
	3.5.2 Perform first-hand investigations to use qualitative and quantitative tests to analyse and compare the quality of water samples
	3.5.3 Identify factors that affect the concentrations of a range of ions in solution in natural bodies of water such as rivers and oceans
	3.5.4 Gather, process and present information on the range and chemistry of the tests used to identify heavy metal pollution of water and monitor possible eutrophication of waterways
	3.5.5 Describe the design and composition of microscopic membrane filters and explain how they purify contaminated water
	3.5.6 Describe and assess the effectiveness of methods used to purify and sanitise mass water supplies
	3.5.7 Gather, process and present information on the features of the local town water supply in terms of catchment area, possible sources of contamination in this catchment, chemical tests available to determine levels and types of contaminants, physi...

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