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We are also able to handle any complex paper in any course as we have employed professional writers who are specialized in different fields of study. From their experience, they are able to work on the most difficult assignments. The following are some of the course we offer assignment help in;. Final Exam To be decided by the instructor when the class is offered. In addition, by practicing learning as a process, students will cultivate the habits, strategies, and mindset necessary to succeed in the sciences.
Through rigorous practice and guided reflection , students will grow in their ability to master the subject matter and hone their disposition toward scientific learning. Summer: 6 weeks - 5 hours of lecture and 2 hours of discussion per week 10 weeks - 3 hours of lecture and 3 hours of discussion per week. Final exam required, with common exam group.
Preparation for General Chemistry: Read Less [-]. Terms offered: Prior to An introduction to the experimental nature of chemistry. An emphasis is placed on gaining familiarity with equipment and experience with the rigorous approaches used in Chemistry laboratory courses. Areas of investigation include scientific calculations and statistical analysis, analytical measurements, acid-base chemistry, titration, equilibrium, solubility, and green chemistry.
Terms offered: Not yet offered This course is designed to help develop fundamental laboratory techniques, study habits, chemical vocabulary, and knowledge of chemistry concepts needed to succeed in CHEM 4A. Students in the course will also come to know and belong to the larger College of Chemistry community, through panel discussions with CoC faculty, students, and staff, and immersion in current research via weekly lab tours and research talks from professors and graduate students. After completing the course, you will understand essential chemistry concepts relevant to CHEM 4A , including chemical calculations, statistics, quantitative analysis, models of atoms, the periodic table, molecules and chemical bonds, acid-base chemistry, thermochemistry, and equilibrium.
Nonmajors should enroll in CHEM Terms offered: Fall , Fall , Spring Students with partial credit in lower division chemistry courses may, with consent of instructor, complete the credit under this heading. Summer: 6 weeks - hours of independent study per week 8 weeks - hours of independent study per week. Terms offered: Fall , Fall , Fall Introduces sophomores and new transfer students to research activities and programs of study in the College of Chemistry. Includes lectures by faculty, an introduction to college library and computer facilities, the opportunity to meet alumni and advanced undergraduates in an informal atmosphere, and discussion of college and campus resources.
Prerequisites: Sophomore or junior standing in the College of Chemistry, or consent of instructor. Final exam required. Terms offered: Spring , Fall , Spring Group study of selected topics. Credit Restrictions: Enrollment is restricted; see the Introduction to Courses and Curricula section of this catalog.
Final exam not required. Terms offered: Fall , Fall , Fall Topics vary with instructor. Enrollment restrictions apply. Terms offered: Spring , Spring , Spring For undergraduate and graduate students interested in improving their ability to communicate their scientific knowledge by teaching chemistry in elementary schools.
The course will combine instruction in inquiry-based chemistry teaching methods and learning pedagogy with 10 weeks of supervised teaching experience in a local school classroom.
Thus, students will practice communicating scientific knowledge and receive mentoring on how to improve their presentations. Approximately three hours per week, including time spent in school classrooms. Terms offered: Not yet offered Green chemistry seeks to promote the design and adoption of safer chemicals and materials.
Their development and adoption depends on solving a number of design and selection challenges. Course Objectives: 1. Understand the principles of green chemistry and bio-inspired design and be able to apply them in developing safer alternatives to a hazardous chemical or material in a specific application; 2. Understand principles of chemical exposure, hazard and risk and be able to apply them in the process of evaluating alternatives to a chemical of concern; 3.
Effectively access information and use tools to evaluate and compare the hazard profiles of chemicals and materials; 4. Communicate complex technical ideas clearly and effectively in written and oral form.
This 4-unit interdisciplinary, project-based course is intended for undergraduate students in public health, chemical engineering, chemistry, environmental studies, and engineering. Student Learning Outcomes: Student teams complete interim assignments during the six-week, session-long research project, which culminates in a final report and presentation.
While class lectures, discussion and assignments support the technical aspects of the project, significant emphasis is also placed on developing the requisite processoriented skills: gathering information, working in teams, and communicating effectively in both written and oral forms.
Prerequisites: Advanced undergraduate; general chemistry or equivalent knowledge. Summer: 6 weeks - 6 hours of lecture, 3 hours of demonstration, and 6 hours of directed group study per week. Terms offered: Fall , Fall , Fall The basic principles of metal ions and coordination chemistry applied to the study of biological systems. Prerequisites: Chemistry 3A or A. Chemistry majors can only count 2 of the 3 units towards their Allied Subject requirement. Terms offered: Fall , Fall , Fall The chemistry of metals and nonmetals including the application of physical chemical principles.
Credit Restrictions: A: No restrictions; B: Chemical Biology majors can only count 2 of the 3 units towards their Allied Subject requirement for B after taking Terms offered: Spring , Spring , Spring The chemistry of metals and nonmetals including the application of physical chemical principles.
Prerequisites: A or consent of instructor. Chemical Biology majors can only count 2 of the 3 units towards their Allied Subject requirement for B after taking Terms offered: Spring , Fall , Spring Principles, instrumentation and analytical applications of atomic spectroscopies, mass spectrometry, separations, electrochemistry and micro-characterization. Discussion of instrument design and capabilities as well as real-world problem solving with an emphasis on bioanalytical, environmental, and forensic applications.
Hands-on laboratory work using modern instrumentation, emphasizing independent projects involving real-life samples and problem solving. Terms offered: Spring , Fall , Fall The preparation of inorganic compounds using vacuum line, air-and moisture-exclusion, electrochemical, high-pressure, and other synthetic techniques.
Kinetic and mechanistic studies of inorganic compounds. Inorganic Synthesis and Reactions: Read Less [-]. Terms offered: Spring , Fall , Spring Experimental techniques of biochemistry and molecular biology, designed to accompany the lectures in Molecular and Cell Biology B and Terms offered: Fall , Fall , Fall Advanced topics in mechanistic and physical organic chemistry typically including kinetics, reactive intermediates, substitution reactions, linear free energy relationships, orbital interactions and orbital symmetry control of reactions, isotope effects, and photochemistry.
Terms offered: Spring , Spring , Spring Advanced topics in synthetic organic chemistry with a focus on selectivity. Topics include reductions, oxidations, enolate chemistry and the aldol reaction, reactions of non-stablized anions, olefination reactions, pericyclic reactions and application to the synthesis of complex structures.
Terms offered: Spring , Fall , Spring Advanced synthetic methods, chemical and spectroscopic structural methods, designed as a preparation for experimental research. Summer: 6 weeks - 2.
Terms offered: Spring , Fall , Spring Kinetic, potential, and total energy of particles and forces between them; principles of quantum theory, including one-electron and many-electron atoms and its applications to chemical bonding, intermolecular interactions, and elementary spectroscopy. Terms offered: Spring , Fall , Fall Statistical mechanics, thermodynamics, equilibrium and applications to chemical systems: states of matter, solutions and solvation, chemical kinetics, molecular dynamics, and molecular transport.
Prerequisites: A or may be taken concurrently ; 4B or equivalent; Mathematics 53; Mathematics 54 may be taken concurrently ; Physics 7B or 8B. Terms offered: Fall , Fall This course demonstrates how computers are used to solve modern problems in physical chemistry. It focuses first on methods of electronic structure theory that reveal details of molecular structure and energetics, and secondly on simulation methods that explore fluctuations and dynamics of complex systems comprising many molecules.
No prior programming experience is required. Prerequisites: Chem A and Chem B are very strongly recommended as prerequisites, or co-requisites. Introduction to Computational Chemistry: Read Less [-]. Terms offered: Fall , Fall , Spring Postulates and methods of quantum mechanics and group theory applied to molecular structure and spectra.
Quantum Mechanics and Spectroscopy: Read Less [-]. Terms offered: Spring , Fall , Spring Experiments in thermodynamics, kinetics, molecular structure, and general physical chemistry. Prerequisites: Two of the following: A, B, C, or B with grades of C- or higher one of which may be taken concurrently.
Credit Restrictions: Deficiency in may be removed by successfully completing C Terms offered: Spring , Spring , Spring The weekly one-hour discussion is for problem solving and the application of calculus in physical chemistry. Molecular structure, intermolecular forces and interactions, biomolecular spectroscopy, high-resolution structure determinations. Chemistry and Chemical Biology majors can only count 2 of the 3 units towards their Allied Subject requirement. Molecular distributions, reaction kinetics, enzyme kinetics.
Bioenergetics, energy transduction, and motor proteins. Electrochemical potential, membranes, and ion channels. Terms offered: Fall , Fall , Fall One-semester introduction to biochemistry, aimed toward chemistry and chemical biology majors. Terms offered: Fall , Fall , Fall After an introduction to the different aspects of our global energy consumption, the course will focus on the role of biomass.
The course will illustrate how the global scale of energy guides the biomass research. Emphasis will be placed on the integration of the biological aspects crop selection, harvesting, storage and distribution, and chemical composition of biomass with the chemical aspects to convert biomass to energy. The course aims to engage students in state-of-the-art research. Repeat rules: Course may be repeated for credit under special circumstances: Repeatable when topic changes with consent of instructor.
Terms offered: Fall , Fall , Fall Radioactivity, fission, nuclear models and reactions, nuclear processes in nature. Computer methods will be introduced. Terms offered: Spring , Spring Experimental illustrations of the interrelation between chemical and nuclear science and technology and nuclear forensics; radioactive decay and counting techniques; nuclear spectroscopy; fundamental radiochemical techniques; radiochemical separations techniques; tracers; activation analysis; forensic applications of radiochemistry; fusion, fission and nuclear reactors.
Course Objectives: Familiarize students with principles of nuclear and radiochemistry and its many important applications in our daily lives; provide hands-on training.
Student Learning Outcomes: A solid understanding of nuclear and radiochemistry; proficiency in safe handling of radioactive materials in the laboratory, and appreciation for the wide application of radiochemical techniques in chemistry, nuclear technology, and nuclear forensics. Terms offered: Spring , Spring , Spring Students with partial credit in upper division chemistry courses may, with consent of instructor, complete the credit under this heading.
Terms offered: Fall , Spring , Spring , Spring The application of basic chemical principles to problems in materials discovery, design, and characterization will be discussed. Topics covered will include inorganic solids, nanoscale materials, polymers, and biological materials, with specific focus on the ways in which atomic-level interactions dictate the bulk properties of matter. CHEM B recommended. Introduction to Materials Chemistry: Read Less [-]. Terms offered: Spring , Fall , Fall , Fall , Spring , Spring Laboratory techniques for the cultivation of microorganisms in batch and continuous reactions.
Enzymatic conversion processes. Recovery of biological products. Prerequisites: Chemical Engineering A may be taken concurrently or consent of instructor. Biochemical Engineering Laboratory: Read Less [-]. Terms offered: Fall , Fall , Spring , Fall , Spring , Spring An interdisciplinary course on the synthesis, characterization, and properties of polymer materials.
Emphasis on the molecular origin of properties of polymeric materials and technological applications. Topics include single molecule properties, polymer mixtures and solutions, melts, glasses, elastomers, and crystals.
Experiments in polymer synthesis, characterization, and physical properties. Terms offered: Spring , Spring , Spring Fluid dynamics, radiative transfer, and the kinetics, spectroscopy, and measurement of atmospherically relevant species are explored through laboratory experiments, numerical simulations, and field observations. Prerequisites: Earth and Planetary Science 50 and with grades of C- or higher one of which may be taken concurrently or two of the following: Chemistry A, B, C, or B with grades of C- or higher one of which may be taken concurrently.
Credit Restrictions: Deficiency in C may be removed by successfully completing Consent of instructor is required to enroll in C after completing Terms offered: Fall , Fall , Spring This multidisciplinary course provides an introduction to fundamental conceptual aspects of quantum mechanics from a computational and informational theoretic perspective, as well as physical implementations and technological applications of quantum information science.
Basic sections of quantum algorithms, complexity, and cryptography, will be touched upon, as well as pertinent physical realizations from nanoscale science and engineering. Terms offered: Spring , Fall , Spring All properly qualified students who wish to pursue a problem of their own choice, through reading or nonlaboratory study, may do so if their proposed project is acceptable to the member of the staff with whom they wish to work.
This is a required course for students wishing to graduate with honors in Chemistry or Chemical Biology. Prerequisites: Senior standing, approval of faculty research advisor, overall GPA of 3.
Terms offered: Spring , Fall , Spring Students may pursue original research under the direction of one of the members of the staff.
Prerequisites: Minimum GPA of 3. Summer: 6 weeks - hours of independent study and hours of laboratory per week 8 weeks - Research for Advanced Undergraduates: Read Less [-]. Terms offered: Spring , Spring , Fall Special topics will be offered from time to time. Examples are: photochemical air pollution, computers in chemistry. Terms offered: Spring , Fall , Spring Special laboratory work for advanced undergraduates.
Terms offered: Spring , Spring , Spring Supervised experience in off-campus organizations relevant to specific aspects and applications of chemistry. Written report required at the end of the term. Course does not satisfy unit or residence requirements for the bachelor's degree.
Prerequisites: Completion of 60 units of undergraduate study and in good standing. Terms offered: Fall , Fall , Fall Enrollment is restricted by regulations listed in the. Ashok Ajoy, Assistant Professor. Physical chemistry, nanoscale NMR spectroscopy. Research Profile. Richard A. Andersen, Professor. Chemistry, inorganic chemistry, organometallic chemistry. John Arnold, Professor. Organometallic chemistry, organometallic catalysis, materials chemistry, coordination chemistry.
Polly Arnold, Professor. Synthetic, inorganic, organometallic chemistry and catalysis of the rare earths and actinides. Anne Baranger, Adjunct Professor. Chemical education, chemical biology, organic chemistry.
Kwabena Bediako, Assistant Professor. Kristie A. Boering, Professor. Physical chemistry, climate change, atmospheric chemistry, environmental chemistry, ozone, earth and planetary science, isotopic compositions of atmospheric trace gases, stratospheric ozone, carbon dioxide, nitrous oxide, molecular hydrogen, methane.
Carlos J. Bustamante, Professor. Nanoscience, structural characterization of nucleo-protein assemblies, single molecule fluorescence microscopy, DNA-binding molecular motors, the scanning force microscope, prokaryotes. Jamie Cate, Professor. Molecular basis for protein synthesis by the ribosome, RNA, antibiotics, a thermophilic bacterium, escherichia coli.
Christopher J. Chang, Professor. Chemistry, inorganic chemistry, neuroscience, bioinorganic chemistry, general physiology, organic chemistry, new chemical tools for biological imaging and proteomics, new metal complexes for energy catalysis and green chemistry, chemical biology.
Michelle Chang, Associate Professor. Biochemistry, Chemical Biology, and Synthetic Biology. Ronald C. Cohen, Professor. Physical chemistry, water, climate, air pollution, atmospheric chemistry, environmental chemistry, analytical chemistry, ozone, nitrogen oxides, CO2, clouds. Jennifer A. Doudna, Professor. Felix Fischer, Associate Professor.
Graham R. Fleming, Professor. Chemistry, proteins, chemical and biological dynamics in the condensed phase, ultrafast spectroscopy, body dynamics, liquids, solutions, glasses, photosynthetic proteins, role of solvents in chemical reactions, complex electric fields, electron transfer.
Materials chemistry, drug delivery, organic chemistry, Protein modification, artificial photosynthesis, water purification.
Statistical mechanics, theoretical chemistry, microscopic behavior of complex biological and material systems, biomolecular structure and dynamics, nonlinear vibrational spectroscopy. Naomi Ginsberg, Associate Professor. Physical and biophysical chemistry, light harvesting, spectroscopy, and imaging. Jay T. Groves, Professor. Chemistry, physical chemistry of cell membranes, molecular organization in cell membranes, receptor-ligand binding, spatial rearrangement of receptors, ligands.
John F. Hartwig, Professor. Inorganic chemistry, organometallic chemistry, catalysis, organic chemistry. Martin Head-Gordon, Professor. Theoretical chemistry, electronic structure calculations, development of novel theories and algorithms, quantum mechanics.
Teresa Head-Gordon, Professor. Computational chemistry, biophysics, bioengineering, biomolecules, materials, computational science.
John Kuriyan, Professor. Structural and functional studies of signal transduction, DNA replication, cancer therapies, phosphorylation. Stephen R. Leone, Professor. Physical chemistry, molecular dynamics, atomic, molecular, nanostructured materials, energy applications, attosecond physics and chemistry, radical reactions, combustion dynamics, microscopy, Optical physics, chemical physics, soft x-ray, high harmonic generation, ultrafast laser, aerosol chemistry and dynamics, neutrals imaging.
David Limmer, Assistant Professor. Theoretical chemistry. Jeffrey R. Long, Professor. Inorganic and solid state chemistry, synthesis of inorganic clusters and solids, controlling structure, tailoring physical properties, intermetal bridges, high-spin metal-cyanide clusters, magnetic bistability.
Thomas Maimone, Assistant Professor. Organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry. Michael A. Marletta, Professor. Susan Marqusees, Professor. Evan W. Miller, Assistant Professor. Chemical biology, organic chemistry, fluorescence microscopy, neuroscience, imaging.
Luciano G. Moretto, Professor. Chemistry, nuclear science, statistical and dynamical properties of nuclei, nuclear reactions, multifragmentation, thermal scaling, monovariant and bivariant regions.
Daniel Neumark, Professor. Physical chemistry, molecular structure and dynamics, spectroscopy and dynamics of transition states, radicals, and clusters, frequency and time-domain techniques, state-resolved photodissociation, photodetachment of negative ion beams.
Eric Neuscamman, Assistant Professor. Electronic Structure Theory, Quantum Chemistry. Daniel K. Nomura, Associate Professor.
Chemical Biology and Analytical Chemistry. Eran Rabani, Professor. Theory of nanomaterials. Jonathan Rittle, Assistant Professor. Inorganic Chemistry and Chemical Biology: Applying structure and spectroscopy to understand and augment the reactivity of metalloenzymes and transition metal clusters. Richmond Sarpong, Professor.
Organic and organometallic chemistry. Saykally, Professor. Physical chemistry, surface science, analytical chemistry, materials solid state chemistry, laser spectroscopy methods, X-ray spectroscopy, molecular astrophysics, novel forms of matter, nonlinear optical molecular imaging NMI , water clusters.
Alanna Scherpartz, Professor. Kevan M. Shokat, Professor. Chemistry, bio-organic chemistry, diabetes, protein phosphorylation, fundamental signal transduction pathways in cells and whole organisms, kinase, drug development, asthma, multiple forms of cancer, neurological disorders, drug addiction.
Chemistry, solid states, physical and inorganic chemistry, emerging technologies, synthesis and characterization of new solid state materials with novel electronic properties, magnetic properties, development of new synthetic methodologies. Don Tilley, Professor. Inorganic, organometallic, polymer and materials chemistry, synthetic, structural, and reactivity studies on transition metal compounds, catalysis, new chemical transformations, advanced solid state materials, renewable energy, solar fuels.
Dean F. Toste, Professor. Organometallic chemistry, organic, development of new synthetic methods, enantioselective catalysts, strategies for the synthesis of natural products, synthesis of complex molecules, formation of carbon-carbon and carbon-heteroatom bonds, olefins.
Peter Vollhardt, Professor. Organic and organometallic chemistry, transition metals, novel synthetic methodology, synthesis of complex natural and unnatural products, assembly of novel oligometallic arrays, phenylenes, organic magnets and conductors. Birgitta Whaley, Professor. Chemistry, physical and theoretical chemistry, cluster and nano science, quantum information and computations, quantum mechanics of clusters and advanced materials, elucidating and manipulating chemical dynamics in strongly quantum environments.
Evan Williams, Professor. Ke Xu, Assistant Professor. Biophysical chemistry, cell biology at the nanoscale, super-resolution microscopy, single-molecule spectroscopy. Ting Xu, Professor. Polymer, nanocomposite, biomaterial, membrane, directed self-assembly, drug delivery, protein therapeutics, block copolymers, nanoparticles.
Omar Yaghi, Professor. Reticular chemistry. Peidong Yang, Professor. Materials chemistry, sensors, nanostructures, energy conversion, nanowires, miniaturizing optoelectronic devices, photovoltaics, thermoelectrics, solid state lighting. Paul A. Bartlett, Professor Emeritus. Bio-organic chemistry, synthetic chemistry, enzyme inhibitors, combinatorial chemistry, peptide conformation, proteomimetics. Robert G. Bergman, Professor Emeritus. Organic and inorganic chemistry: synthesis and reaction mechanisms, organotransition metal compounds, homogeneous catalysis.
Joseph Cerny, Professor Emeritus. Nuclear chemistry, nuclei, radioactivity, isotopes. Jean M. Frechet, Professor Emeritus. Materials chemistry, catalysis, drug delivery, analytical chemistry, organic synthesis, polymer science, macromolecules, chiral recognition, control of molecular architecture at the nanometer scale, reactive surfaces. Robert A. Harris, Professor Emeritus.
Molecules, radiation, theoretical chemistry, atoms, weak interactions, condensed matter. John E. Hearst, Professor Emeritus. Nucleic acid structure, psoralen photochemistry. Clayton H. Heathcock, Professor Emeritus. Organic synthesis, organic chemistry, large-molecule synthesis.
Darleane C. Hoffman, Professor Emeritus. Nuclear chemistry, actinide, transactinides, superheavy elements, liquid-liquid extractions, solid-phase chromatographic extractions, gas-phase chromatographic separations, meitnerium, nuclear decay properties of the heaviest elements, decay.
Sung-Hou Kim, Professor Emeritus. Computational genomics, Structural Biology, drug discovery, disease genomics. Judith P. Klinman, Professor Emeritus. Catalytic and regulatory mechanisms in enzyme-catalyzed reactions, kinetic, spectroscopic, stereochemical biological techniques, peptide- derived cofactors, Nuclear tunneling and role of protein dynamics in catalysis, enzymatic activation of molecular oxygen.
William Lester, Professor Emeritus. Theoretical and physical chemistry, advances in basic theory, computational methods, study of molecular electronic structure, quantum Monte Carlo method, Born-Oppenheimer approximation. Marcin Majda, Professor Emeritus. Electrochemistry, analytical chemistry, electrode and solution interfaces, electron tunneling, bioanalytical chemistry. Samuel S. Markowitz, Professor Emeritus. Nuclear chemistry, environmental chemistry, nuclear reactions for chemical analyses.
Richard Mathies, Professor Emeritus. Genomics, biophysical, bioanalytical, physical chemistry, laser spectroscopy, resonance Raman, excited-state reaction dynamics photoactive proteins, rhodopsins, microfabricated chemical biochemical analysis devices, forensics, infectious disease detection. William H. Miller, Professor Emeritus. Theoretical chemistry, chemical dynamics, quantum mechanical and semiclassical theories, dynamical chemical processes at the molecular level, photodissociation, femtosecond pump-probe spectroscopy, calculations of rate constants for chemical reactions.
Norman E. Phillips, Professor Emeritus. Materials, solid state chemistry, low-temperature specific heat measurements, microscopic theories, models for condensed matter, macroscopic properties, microscopic structures, measurements on nanoparticles, carbon nanotubes.
Theory and experiment in magnetic resonance spectroscopy and imaging, quantum coherence and decoherence, novel concepts and methods including molecular and biomolecular sensors and microfluidics, laser hyperpolarization and detection, laser and zero-field NMR, in areas from material science to biomedicine. Kenneth N. Raymond, Professor Emeritus.
Chemistry, bacteria, bioinorganic chemistry, biophysical chemistry, coordination, design of specific chelating agents for metal ions, human iron storage and transport proteins, low-molecular weight chelating agents, metals in medicine, metal-ligands. Gabor A. Somorjai, Professor Emeritus. Physical chemistry, catalysis, surface science, low-energy electron diffraction, solid state chemistry, macroscopic surface phenomena, adhesion, lubrication, biocompatibility, bonding, and reactivity at solid surfaces, scanning tunneling.
David E. Wemmer, Professor Emeritus. Nuclear magnetic resonance, nucleic acids, biophysical chemistry: proteins, NMR spectroscopy, magnetic resonance methods, structure of proteins and DNA, conformational fluctuations, biopolymers. When you print this page, you are actually printing everything within the tabs on the page you are on: this may include all the Related Courses and Faculty, in addition to the Requirements or Overview.
If you just want to print information on specific tabs, you're better off downloading a PDF of the page, opening it, and then selecting the pages you really want to print. Home Undergraduate Degree Programs Chemistry. Major Requirements BS In addition to the University, campus, and college requirements, listed on the College Requirements tab, students must fulfill the below requirements specific to their major program.
A minimum GPA of 2. Upper Division Requirements For information regarding the upper division requirements for the Materials Chemistry concentration, see below.
CHEM ENGIN 7. MATH DATA C8. MATH A. STAT DATA C MATH B.
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