ࡱ> 9 0KWbjbj hhiN- JJ8L2t,D:PPP&LC'$g'?,A,A,A,A,A,A,$/1be,{'&@&{'{'e,JJPPgz,+++{'vJ8PP?,+{'?,+++P\Pew'++,,0,+2)2+2+D{'{'+{'{'{'{'{'e,e,*{'{'{',{'{'{'{'2{'{'{'{'{'{'{'{'{' X :  1Programme TitleChemistry with a Year in Industry2Programme CodeCHMU123JACS CodeF1004Level of StudyUndergraduate5aFinal QualificationBachelor of Science with Honours (BSc)5bQAA FHEQ LevelLevel 66aIntermediate Qualification(s)Not applicable6bQAA FHEQ LevelNot applicable7Teaching Institution (if not 91̽)Not applicable8FacultyScience9DepartmentChemistry10Other Departments providing credit bearing modules for the programmeNone11Mode(s) of AttendanceFull-time12Duration of the Programme4 years13Accrediting Professional or Statutory BodyRoyal Society of Chemistry14Date of production/revisionDecember 2018, September 202215. Background to the programme and subject area Chemistry occupies a central position in modern science because almost all the phenomena we observe and experience in the world around us are underpinned by the behaviour of atoms and molecules. Chemistry provides us with the insights to understand and predict this behaviour, and the skills to create the materials that control and change our environment. The applications of Chemistry in modern technology include medicine, forensic science, art restoration, solar energy, environmental control, agriculture, novel materials and many others. This enables Chemistry graduates to command a diverse range of career opportunities, both within chemistry and more broadly as scientists. In addition to professional careers closely related to the discipline, Chemistry graduates are able to pursue careers in areas such as management, sales, accounting, computing, patent law, insurance, banking, and teaching well equipped for success due to their rigorous education in a challenging discipline. The diversity of Chemistry and its place at the continually changing forefront of science requires contemporary expertise across the breadth of the subject from departments delivering a chemical education. This encompasses the familiar sub-disciplines of inorganic, organic, physical and analytical chemistry which exemplify different methodologies, and extends into multidisciplinary areas such as sustainability, materials and biological chemistry, which are at the interface of important new technologies and challenges. The Department at the University of 91̽ delivers research-led teaching in an inspirational and collaborative environment to meet the challenge of providing students with the excellent educational experience they need to emerge as adaptable, flexible and resilient professionals. With a deep understanding of their subject discipline and the skills, knowledge and values to be creative and effective problem solvers, they are independent learners able to communicate their ideas clearly to a range of audiences and work effectively, both individually and as part of a team. A major fourth year research project allows our MChem students to utilise and demonstrate these attributes generating new Chemical knowledge. Our graduates are able to take their place in society as well-informed, highly employable and responsible citizens who are motivated and equipped for the challenges of their chosen career. The BSc Chemistry with a Year in Industry course recognises the vocational nature of a chemistry programme and allows the students in their third year to develop their chemical knowledge, practical skills and transferable skills under the framework of an academic programme whilst working as a professional chemist in the chemical industry. The BSc Chemistry with a Year in Industry degree is primarily designed for students who wish to pursue a wider career that does not actively involve the practice of chemistry. The BSc Chemistry with a Year in Industry degree has been accredited by the Royal Society of Chemistry (RSC), which provides access to Associate Membership of the RSC and partially satisfies the academic requirements for the RSCs award of Chartered Chemist (CChem).16. Programme aims The Department aims to provide high quality education which is stimulating, useful and enjoyable to students from a range of educational and social backgrounds and which is informed and invigorated by the research and scholarship of the staff. This contributes to the Universitys mission to maintain the highest standards of excellence as a research-led institution, whose staff work at the frontiers of academic enquiry and educate students in a research environment. The programme aims to: 1. provide a wide understanding of Chemistry and its role in industry, the economy, the environment and society; 2. provide high quality teaching, informed and invigorated by the research and scholarship of the staff, and which is stimulating, and useful; 3. give to students a range of interpersonal and transferable skills; 4. engender attitudes which will promote lifelong learning; 5. promote the free pursuit of knowledge and to develop an ability to find, understand, and analyse information; 6. develop skills in the solution of theoretical and practical chemical problems; 7. foster safe and good laboratory practice; 8. develop students' analytical and deductive skills; 9. prepare students for a professional career; 10. to develop specialist knowledge and understanding of contemporary chemical problems and insights through exposure to material up to the frontiers of the discipline; 11. enhance competence in practical chemistry and communication skills; 13. augment this educational experience by means of a one year placement in the chemical industry.17. Programme learning outcomes 1Apply chemistry concepts and knowledge to evaluate and interpret chemical phenomena.2Design, execute, evaluate, and report a scientific investigation applying the appropriate knowledge within and up to the frontiers of the discipline.3Use chemical concepts and methods to interpret phenomena in society, technology, and the natural world, and articulate ethical implications of chemical activity in and on society.4Solve a range of problem types by applying a broad range of chemistry principles and knowledge, using logical methodology, and demonstrating creative and analytical thinking.5Design, conduct and accurately record the results of experiments using appropriate technical skills and following safe laboratory practice.6Analyse and represent chemical data using appropriate information technology.7Find and communicate information to a range of audiences through a variety of written and oral media using discipline-specific conventions where appropriate.8Work independently and as part of a team deploying effective organisation, personal responsibility, and planning skills.9Describe skills, attributes and experience, and critically reflect on professional development to foster lifelong learning skills. 18. Teaching, learning and assessment Development of the learning outcomes is promoted through the following teaching and learning methods: Lectures Lectures are used to explain concepts and theories, to provide and interpret complex information (supported by our VLE), and to exemplify approaches to problem solving. Tutorials Small group tutorials in levels 1 and 2 provide the opportunity for students to work together, supported by their tutor. These are formative sessions, and the key element is that the students engage in carrying out the work rather than simply receiving instruction. As well as providing the opportunity to learn problem solving and clarify their understanding of chemical concepts, honing their analytical thought processes, these sessions provide the opportunity to develop their skills in working with peers and communicating complex ideas. The students have to be active participants, with the tutor providing a supportive environment to provide feedback and guidance based on their efforts. The individual interaction between students and tutors is maintained throughout the degree, and regular individual meetings form part of the reflective skills audit and careers guidance, as well as the usual pastoral support. The relationship between student and tutor is reinforced from the beginning of the course through the regular academic tutorials described above. Group work and workshops Students work in groups to tackle some aspects of the laboratory course, culminating in a group project in the where they have to cooperate to tackle the open ended problems effectively. Further opportunities for group work occur in modules at all levels of the programme. Laboratory work Technical skills, safety assessments, time management and experimental design are developed through the laboratory programme. Industrial Placement Working directly under an experienced Chemist in an industrial environment provides a natural and a stimulating setting for the student both to acquire new practical skills and to appreciate the relevance of his/her degree programme. Procedures for the safe handling of chemicals, hazard assessment and the recording of results are reinforced. Study in Industry students actually have a much wider and deeper laboratory experience than home students, since their project takes place during working hours for the whole of one year. Project work Open ended project work provides the opportunity for students to tackle larger tasks and demonstrate their independent study skills, as exemplified through a substantial literature review and laboratory project in level 4. Opportunities to demonstrate achievement of the learning outcomes are provided through the following assessment methods: Formal examinations Unseen examinations which test chemistry knowledge and its application to solving short answer unseen problems. Unseen examinations which test chemistry knowledge and technical problem solving skills using online quizzes. Coursework This is assessed through a variety of methods to test both knowledge and communication skills, including written submissions and oral presentations. In the laboratory, the recording of experimental outputs and data submission demonstrates effective laboratory skills, alongside the intellectual skills demonstrated by the analysis of these data. Oral presentations These form an important part of communicating the facts and interpretations of laboratory and project work. Project reports These become more detailed and extensive as students progress through the course, culminating in the report of the final year laboratory project. Reflective skills audit Academic staff ensure that students engage with the requirements to reflect on their skills development through the course.19. Reference points The learning outcomes have been developed to reflect the following points of reference: Subject Benchmark Statements (2014)  HYPERLINK "https://www.qaa.ac.uk/docs/qaa/subject-benchmark-statements/sbs-chemistry-14.pdf?sfvrsn=99e1f781_14" \h https://www.qaa.ac.uk/docs/qaa/subject-benchmark-statements/sbs-chemistry-14.pdf?sfvrsn=99e1f781_14 Framework for Higher Education Qualifications (2014)  HYPERLINK "https://www.qaa.ac.uk/docs/qaa/quality-code/qualifications-frameworks.pdf" \h https://www.qaa.ac.uk/docs/qaa/quality-code/qualifications-frameworks.pdf University Strategic Plan  HYPERLINK "http://www.sheffield.ac.uk/strategicplan" \h http://www.sheffield.ac.uk/strategicplan Learning and Teaching Strategy (2016-21)  HYPERLINK "/staff/learning-teaching/our-approach/strategy2016-21" \h /staff/learning-teaching/our-approach/strategy2016-21 RSC Accreditation of Degree Programmes (2017)  HYPERLINK "http://www.rsc.org/images/Accreditation%20criteria%202017-%20update%20july%2017_tcm18-151306.pdf" \h http://www.rsc.org/images/Accreditation%20criteria%202017-%20update%20july%2017_tcm18-151306.pdf20. Programme structure and regulations The first two years of all the chemistry degree programmes share a common set of core modules. This structure enables students to transfer between any of the degree programmes that the department offers, so that they can respond to potential changes in their specific interests as they progress through their education. In level 1, a core 80 credit Fundamentals of Chemistry module establishes the fundamental principles that underpin the whole breadth of Chemistry, then focuses on themes to inculcate the different knowledge and methodologies employed across the subject. This ensures that all students experience a rigorous introduction to basic chemical principles with an emphasis upon Chemistry as a unified subject.. The place of chemistry in the wider world is emphasised through the 10 credit Chemistry in a Sustainable Future module which is also compulsory for all students: it is essential that all our graduates understand the impact and influence that Chemistry wields.. A 20 credit Essential Skills for Chemists module lays the foundation for the quantitative, communication and professional skills needed for Chemistry at University level and beyond. This level also allows students to extend their studies with 10 approved credits selected from modules covering the broader application of chemistry or a language module. The themes established in level 1 are developed through five modules in level 2, which are Inorganic Chemistry: Structure, Bonding and Reactivity; Synthetic, Mechanistic and Biological Aspects of Organic Chemistry; Physical Chemistry and Polymer Science; Environmental, Analytical and Sustainable Chemistry; and Enterprise and Employability. At the end of level 2, students need to obtain a weighted average mark of 60 to remain on the MChem course. Level 3 involves a year of study to develop their chemical knowledge, practical skills and transferable skills under the framework of an academic programme whilst working as a professional chemist in the chemical industry. This year does not contribute to the degree calculation, but must be passed to qualify for the degree title. Level 4, students further develop their capacity for open ended, independent work through the 30 credit Chemistry Employability Skills and Projects modules. A key feature of this module is a skills for success component, which aims to ensure that students identify and develop skills that will be of use to them in life, future study and employment. The remaining core syllabus is completed by three 20 credit compulsory modules, preparing students to take an informed choice of a wide range of optional modules that provide the opportunity for students to sample the frontiers of the subject and how it is applied in the wider world. Students take three 10 credit modules, led solely by their preferred specialisation.Detailed information about the structure of programmes, regulations concerning assessment and progression and descriptions of individual modules are published in the University Calendar available on-line at  HYPERLINK "http://www.sheffield.ac.uk/calendar/" \h http://www.sheffield.ac.uk/calendar/. 21. Student development over the course of study The students progress towards achieving the programme level learning outcomes is guided by a series of intermediate learning outcomes, allowing them to stage the development of their knowledge and skills over the course of the programme: Level 1: Apply fundamental concepts (vocabulary, facts, theories, and models) to chemical phenomena and describe the place of models in chemistry. Demonstrate a working understanding of scientific method (methodology of chemistry research) through an investigation. Articulate in simple terms the role of chemistry in society and the philosophy and limitations of the scientific method. Follow a logical problem solving methodology to solve a problem. Safely conduct a basic investigation in the laboratory, demonstrate good organisation skills in lab work and accurately and concisely document experimental work in a lab notebook. Demonstrate mathematical skills in simple data analysis and use software to plot appropriate graphs. Demonstrate basic information literacy and correct terminology in a range of written work and oral presentation. Manage own work to meet deadlines, identify and find own resources, engage successfully in group activity with a familiar team, work independently. Identify skills and abilities through critical reflection on experiences of learning and wider context and describe development activities done. Level 2: Apply chemical concepts to interpret chemical phenomena. Design an investigation into a problem in the world around us. Interpret phenomena in society, technology and the natural world in terms of chemical behaviour. List some ethical implications of chemical activity on society. Differentiate between and appraise contrasting solutions of a chemical problem. Design experiments, specifying the resources required and assessing the risks involved. Interpret results of experiments using appropriate software and by combining methods of analysis. Find information from different sources and use in written and oral presentation work that demonstrates use of vocabulary and communication styles appropriate to discipline-specific conventions. Organise own learning resources (information management - endnote/databases), set and meet deadlines, and engage successfully in group activity with an unfamiliar team. Critically reflect on skills in order to improve effectiveness in learning or work. Describe activities taken in a considered exploration of career options. Level 3 and 4: Apply concepts and knowledge across the breadth of chemistry to evaluate and interpret chemical phenomena including aspects of the frontiers of the discipline. Design, execute and evaluate an investigation into a known problem based on research themes or an applied problem in the world around us. Assemble information from across chemistry to interpret phenomena in society, technology and the natural world, in terms of chemical behaviour. Apply knowledge of the ethical implications of chemical activity in and on society to own practice. Describe a complex problem in society, technology or the natural world and draw together knowledge to plan a solution using logical methodology, demonstrating creative and analytical thinking. Design, conduct, and accurately record the results of experiments and investigations using a range of practical skills demonstrating awareness of sustainability in chemistry through cost-effective use of resources. Choose and apply methods of data analysis and presentation appropriate to a specific investigation. Find appropriate sources in the literature and communicate information through a variety of written and oral media in accordance with discipline-specific conventions to a range of audiences. Work independently demonstrating self-direction, effective planning and organisation to achieve goals. Make best use of time, group abilities, and laboratory facilities to achieve goals, working together to plan and agree own and colleagues contribution to group work in a team and demonstrate personal responsibility in performing tasks. Exercise initiative and take personal responsibility in continuing professional development through self-directed learning and reflective practice. Describe skills, attributes, and experience clearly: for example, through securing graduate job/summer internship/Masters degree relevant to career.22. Criteria for admission to the programme Detailed information regarding admission to the programme is available at  HYPERLINK "http://www.shef.ac.uk/prospective/" \h http://www.shef.ac.uk/prospective/23. Additional information This specification represents a concise statement about the main features of the programme and should be considered alongside other sources of information provided by the teaching department(s) and the University. In addition to programme specific information, further information about studying at 91̽ can be accessed via our Student Services web site at  HYPERLINK "http://www.shef.ac.uk/ssid" \h http://www.shef.ac.uk/ssid.     chmu12-1 ver23-24 PAGE1 Programme Specification A statement of the knowledge, understanding and skills that underpin a taught programme of study leading to an award from 91̽  (.:;<=>LMQRSTUVW`aefghiwx        # $ 2 3 4 5 6 K ] ^ l m n o p h'hU0h'B*phhU0h5B*phhU0h'5B*phh5jhU0UmHnHuN ;7(($$d%d&d'd(dIfNOPQRgdU0$<a$;<>MTe---7(($$d%d&d'd(dIfNOPQRgdU0kd$$IfHFpP&@0`'    44 HapytU0TUWafe---7(($$d%d&d'd(dIfNOPQRgdU0kd$$IfHFpP&@0`'    44 HapytU0fgixe---7(($$d%d&d'd(dIfNOPQRgdU0kdz$$IfHFpP&@0`'    44 HapytU0e--7(($$d%d&d'd(dIfNOPQRgdU0kd7$$IfHFpP&@0`'    44 HapytU0X 7(($$d%d&d'd(dIfNOPQRgdU0kd$$IfHFpP&@0`'    44 HapytU0 (($IfgdU0 kd$$IfHFpP&@0`'    44 HapytU0 (($IfgdU07(($$d%d&d'd(dIfNOPQRgdU0    -kdn$$IfHFpP&@0`'    44 HapytU07(($$d%d&d'd(dIfNOPQRgdU0 $ 3 4 6 ^ -kd+$$IfHFpP&@0`'    44 HapytU07(($$d%d&d'd(dIfNOPQRgdU0^ m n p x -kd$$IfHFpP&@0`'    44 HapytU07(($$d%d&d'd(dIfNOPQRgdU0p w x   ' ( / 0 1 3 4 ^ _ y z { } ~ eļ踸h'h5B*phh'5B*phhU0hU0B*phh5hU0h'B*phhU0h5B*phhU0h'5B*phH e---7(($$d%d&d'd(dIfNOPQRgdU0kd$$IfHFpP&@0`'    44 HapytU0 e---7(($$d%d&d'd(dIfNOPQRgdU0kdb$$IfHFpP&@0`'    44 HapytU0 e---7(($$d%d&d'd(dIfNOPQRgdU0kd$$IfHFpP&@0`'    44 HapytU0  ( 0 e---7(($$d%d&d'd(dIfNOPQRgdU0kd$$IfHFpP&@0`'    44 HapytU00 1 4 _ z e---7(($$d%d&d'd(dIfNOPQRgdU0kd $$IfHFpP&@0`'    44 HapytU0z { ~ e---7(($$d%d&d'd(dIfNOPQRgdU0kdV $$IfHFpP&@0`'    44 HapytU0 e+:$ @ xx$d%d&d'd(dNOPQRkd $$IfHFpP&@0`'    44 HapytU0 fkv xx$IfgdU0 x$IfgdU0 P<$Ifgd@] P$Ifgd@]5x$$d%d&d'd(dIfNOPQRgdU0efT\jkuvw_`vwvwijMN>?۸hU0h'5B*phhU0h5B*phhU0h'B*phh5B*phh'5B*phhU0h'B*phh'h5Hvw`w[%%5x$$d%d&d'd(dIfNOPQRgdU0:$ @ xx$d%d&d'd(dNOPQRjkd $$IfHu&`'0`'44 Hap ytU0wwjN? xx$IfgdU0 x$IfgdU05x$$d%d&d'd(dIfNOPQRgdU0 [ :$(($$d%d&d'd(dIfNOPQRa$gdU0:$ @ xx$d%d&d'd(dNOPQRjkdW $$IfHp&`'0`'44 Hap ytU0l1:$(($$d%d&d'd(dIfNOPQRa$gdU0[kd $$IfH0p&@ %`'44 HapytU07(($$d%d&d'd(dIfNOPQRgdU0ijklm      !!!!!!!""""""""""""#,#-#5#6######$$%%&&&&''(((-(.((())>)h'5B*phh5B*phhU0h'B*phhU0h5B*phhU0h'5B*phh5Lji17(($$d%d&d'd(dIfNOPQRgdU0:$(($$d%d&d'd(dIfNOPQRa$gdU0[kdX $$IfH0p&@ %`'44 HapytU0jkm i17(($$d%d&d'd(dIfNOPQRgdU0:$(($$d%d&d'd(dIfNOPQRa$gdU0[kd $$IfH0p&@ %`'44 HapytU0   i17(($$d%d&d'd(dIfNOPQRgdU0:$(($$d%d&d'd(dIfNOPQRa$gdU0[kdL$$IfH0p&@ %`'44 HapytU0 i17(($$d%d&d'd(dIfNOPQRgdU0:$(($$d%d&d'd(dIfNOPQRa$gdU0[kd$$IfH0p&@ %`'44 HapytU0 !i17(($$d%d&d'd(dIfNOPQRgdU0:$(($$d%d&d'd(dIfNOPQRa$gdU0[kd@$$IfH0p&@ %`'44 HapytU0!!!"i17(($$d%d&d'd(dIfNOPQRgdU0:$(($$d%d&d'd(dIfNOPQRa$gdU0[kd$$IfH0p&@ %`'44 HapytU0""""i17(($$d%d&d'd(dIfNOPQRgdU0:$(($$d%d&d'd(dIfNOPQRa$gdU0[kd4$$IfH0p&@ %`'44 HapytU0""""p6:$ @ xx$d%d&d'd(dNOPQR4$d%d&d'd(dNOPQR^`[kd$$IfH0p&@ %`'44 HapytU0"-#6###&(.(?)O)___3$$d%d&d'd(dIfNOPQRgdU05d$$d%d&d'd(dIfNOPQRgd+~5x$$d%d&d'd(dIfNOPQRgdU0 >)?)N)O)))))**++++,,,,,,,,,--[-\-o-p-..>.D.M.N.X.Y../////01020A0B0000001h1i1j1~11111112p2q2̺̪Ъjh'Uh5B*phh'5B*phhU0h'5h5h'hU0h'B*phhU0h5B*phhU0h'5B*phh+~B*phBO)))+,T5d$$d%d&d'd(dIfNOPQRgd+~3$$d%d&d'd(dIfNOPQRgdU0 $d$Ifgd+~3$$d%d&d'd(dIfNOPQRgd+~,,,,\-_]'5x$$d%d&d'd(dIfNOPQRgdU0jkd($$IfHp&`'0`'44 Hap ytU05x$$d%d&d'd(dIfNOPQRgdU0\-p-N.Y.//20B00__TK $IfgdU0 x$IfgdU03$$d%d&d'd(dIfNOPQRgdU05x$$d%d&d'd(dIfNOPQRgdU05x$$d%d&d'd(dIfNOPQRgdU000i1j1)jkd$$IfHp&`'0`'44 Hap ytU05x$$d%d&d'd(dIfNOPQRgdU05x$$d%d&d'd(dIfNOPQRgdU0j11112 33314Z45=56~~~s~s x$IfgdU0$If x$IfgdU05x$$d%d&d'd(dIfNOPQRgdU0:$ @ xx$d%d&d'd(dNOPQR q2}22223 3 3 3 3f3g3y3333333444/40414Y4Z4[4445 55515<5=5>5556666616:6;67;7z7{78;89 9ŴŴުhU0h5B*phhU0h'B*phh5B*phh'5B*ph!jhU0h'>*B*UphhU0h'>*B*phjh'Uh'h5!jhU0h'>*B*UphUhU0h'>*B*phU766;6{7w;[%%5x$$d%d&d'd(dIfNOPQRgdU0:$ @ xx$d%d&d'd(dNOPQRjkd6$$IfHp&`'0`'44 Hap ytU0 99::::;;v;w;<<==8=9=A=> >>>>? ?@ @A ATAUAVAB%B&BUB[B\BBBBBBBBBBCCCCDDEEFFGGHHHHI̻ᱱh5B*phh'5B*phhU05B*ph!jhU0h'>*B*UphhU0h'>*B*phjh'Uh5h'hU0h5B*phhU0h'B*ph>w;9=>UA7xx$$d%d&d'd(dIfNOPQRgdU0 x$IfgdU05x$$d%d&d'd(dIfNOPQRgdU0UAVAB]7xx$$d%d&d'd(dIfNOPQRgdU0jkd$$IfHp&`'0`'44 Hap ytU0BBBBB[Y[:$ @ xx$d%d&d'd(dNOPQRjkdR$$IfHp&`'0`'44 Hap ytU0BCHOLS[7Px$$d%d&d'd(dIfNOPQRgdU05P$$d%d&d'd(dIfNOPQRgdU05x$$d%d&d'd(dIfNOPQRgdU0IIJJKKLNLOLLMMNNOOPPQQRRSSSSSST,T-T`TaTTTTTTTTTUUVVVIVJVdVeVfVgVhViVjVkVlVmVnVoVpVqVrV˺˺塝hpjhpU!jhU0h'>*B*UphhU0h'>*B*phh'jh'Uh5B*phh'5B*phh5hU0h5B*phhU0h'B*ph>SSST[#7xx$$d%d&d'd(dIfNOPQRgdU0:$ @ xx$d%d&d'd(dNOPQRjkd$$IfHp&`'0`'44 Hap ytU0TTTgV[#7xx$$d%d&d'd(dIfNOPQRgdU0:$ @ xx$d%d&d'd(dNOPQRjkd$$IfHp&`'0`'44 Hap ytU0gVhViVkVlVnVoVqVrVtVuVjkd$$IfHp&`'0`'44 Hap ytU0 rVsVtVuVvVwV}VVVVVVVVVVVVVVVWW'W(W9W:WCWDWEWFWGWHWIWJWKW붮󔐄h'5B*CJphh5h'5B*CJphhiB*mHnHphuh'B*phjh'B*UphhU0B*CJaJphh >*䴳'*䴳'5*#ܳɳVVVVV($<:Da$ $<<:Da$4$ 9r $d%d&d'd(dNOPQRa$1 9r $d%d&d'd(dNOPQR4$ 9r $d%d&d'd(dNOPQRa$(WDWEWFWGWHWIWJWKW:D<<:D$<:Da$50P. 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