Chemistry Chemistry Track: Chemistry . - Brown University

ChemistryBIOL 0440BIOL 0470BIOL 0500BIOL 0510BIOL 0530BIOL 0800BIOL 1050BIOL 1090BIOL 1100BIOL 1110BIOL 1120BIOL 1150BIOL 1200BIOL 1210BIOL 1260BIOL 1290BIOL 1300BIOL 1310BIOL 1330BIOL 1520BIOL 1540BIOL 1560BIOL 1600Inquiry in Plant Biology: Analysis of PlantGrowth, Reproduction and AdaptiveResponsesGeneticsCell and Molecular BiologyIntroductory MicrobiologyPrinciples of ImmunologyPrinciples of PhysiologyBiology of the Eukaryotic CellPolymer Science for BiomaterialsCell Physiology and BiophysicsTopics in Signal TransductionBiomaterialsStem Cell EngineeringProtein Biophysics and StructureSynthetic Biological SystemsPhysiological PharmacologyCancer BiologyBiomolecular Interactions: Health, Diseaseand Drug DesignDevelopmental BiologyBiology of ReproductionInnate ImmunityMolecular GeneticsVirologyDevelopment of Vaccines to InfectiousDiseasesDrug and Gene DeliveryThe Biology of AgingBIOL 2110BIOL 2350Chemistry Electives:CHEM 0500Inorganic ChemistryCHEM 1140Physical Chemistry: Quantum ChemistryCHEM 1150Physical Chemistry: Thermodynamics andStatistical MechanicsCHEM 1220Computational Tools in Biochemistry andChemical BiologyCHEM 1230Chemical BiologyCHEM 1240BiochemistryCHEM 1450Advanced Organic ChemistryCHEM 2420Organic ReactionsComputer Science Electives:CSCI 0080A First Byte of Computer ScienceCSCI 0150Introduction to Object-OrientedProgramming and Computer ScienceCSCI 0160Introduction to Algorithms and DataStructuresCSCI 0170Computer Science: An IntegratedIntroductionCSCI 0180Computer Science: An IntegratedIntroductionCSCI 1810Computational Molecular BiologyEngineering Electives:ENGN 0410Materials Science4Neuroscience Electives:NEUR 0010The Brain: An Introduction toNeuroscienceNEUR 0650Biology of HearingNEUR 1020Principles of NeurobiologyNEUR 1030Neural SystemsNEUR 1040Introduction to NeurogeneticsNEUR 1670NEUR 17403Neuropharmacology and SynapticTransmissionThe Diseased Brain: Mechanisms ofNeurological and Psychiatric DisordersPhysics Electives:PHYS 0160Introduction to Relativity, Waves andQuantum PhysicsPublic Health Electives:PHP 1501Essentials of Data AnalysisTotal Credits123420Note that the mathematics and physics requirements may be satisfiedby Advanced Placement credit.BIOL 0285 is required for the class of 2022 onward. Students inthe classes of 2019-2021 are required to take only three courses inbiochemistry yet may take BIOL 0285 as an elective.Students in the classes of 2019-2021 are required to take sixelectives. The five elective requirement applies to the class of 2022and after.or any NEUR course in Cell, Genetics, Molecular Biology, orDevelopment.Honors Requirements for BiochemistryAll ScB Biochemistry concentrators are candidates for Honors; noseparate application is necessary.The requirements for Honors in Biochemistry are:* Students must have a majority of either As or S with distinction grades inconcentration courses.* Two semesters of Independent Study (CHEM 0970, CHEM 0980 orBIOL 1950, BIOL 1960). Guidelines and requirements associated withIndependent Study are in the Undergraduate Concentration Handbookwhich can be found at the department website duate/).* A Thesis in a form approved by the research advisor, and recommendedby the research advisor. Additional information about thesis guidelineswill be provided by the Concentration Advisor in the first half of the fallsemester.Chemical Physics ConcentrationRequirementsChemical Physics is an interdisciplinary field at the crossroads ofchemistry and physics and is administered jointly by the two departments.The concentration provides students with a broad-based understandingin fundamental molecular sciences, as well as a background for graduatestudies in physical chemistry, chemical physics, or molecular engineering.Concentrators are required to take twenty courses in chemistry, physics,and mathematics, although approved courses in applied mathematics,biology, computer science, geological sciences, or engineering may besubstitutes. Chemical Physics concentrators are also advised to take atleast six courses in the humanities and social sciences. Chemical Physicsconcentrators at all levels (first-year through seniors) are actively involvedin research with faculty members in both departments.Standard program for the Sc.B. degree1Twenty-one semester courses in chemistry, physics, and mathematics,with a minimum of four semester courses in mathematics. Theexpectation is that courses required for a concentration in ChemicalPhysics will be taken for a letter grade. Core courses are:CHEM 0330CHEM 0350CHEM 0500CHEM 1140PHYS 0070PHYS 0160Equilibrium, Rate, and StructureOrganic ChemistryInorganic ChemistryPhysical Chemistry: Quantum ChemistryAnalytical MechanicsIntroduction to Relativity, Waves andQuantum PhysicsChemistry1111113

4ChemistryPHYS 0470Electricity and MagnetismSelect one of the following laboratory courses:CHEM 1160Physical Chemistry LaboratoryPHYS 0560Experiments in Modern PhysicsPHYS 1560Modern Physics LaboratorySelect one course in statistical mechanics:CHEM 1150Physical Chemistry: Thermodynamics andStatistical MechanicsPHYS 1530Thermodynamics and StatisticalMechanicsMATH 0190Advanced Placement Calculus (Physics/Engineering)MATH 0200Intermediate Calculus (Physics/Engineering)MATH 0520Linear AlgebraSeven courses, primarily at the 1000 or 2000 level, in chemistryor physics.Select two semesters of independent study:CHEM 0970/0980 Undergraduate ResearchPHYS 1990Senior Conference CourseTotal Credits11111117221Other approved courses in applied mathematics, biology, computerscience, geological sciences, or engineering may be substituted forsome of the twenty-one.Students are advised to take at least six courses in the humanitiesand social sciences.Honors Requirements for Chemical PhysicsAll ScB Chemical Physics concentrators who completes the followingrequirements are candidates for Honors; no separate application isnecessary.The requirements for Honors in Chemical Physics are:* A strong grade record in concentration courses. This means a gradepoint average for the concentration that is higher than 3.50.* Two semesters of Independent Study (CHEM 0970, CHEM 0980,PHYS 1990 or equivalent. Guidelines and requirements associated withIndependent Study are in the Undergraduate Concentration Handbookwhich can be found at the department website duate/).* A Thesis in a form approved by the research advisor, and recommendedby the research advisor. Additional information about thesis guidelineswill be provided by the Concentration Advisor in the first half of the fallsemester.* A Poster presentation at the chemistry department's springundergraduate poster session.Chemistry Graduate ProgramThe Department of Chemistry offers graduate programs leading to theMaster of Arts (A.M.); the Master of Science (Sc.M.); a the Doctor ofPhilosophy (Ph.D.) degree.Research in Chemistry stretches from the exploration of physicalphenomena of individual molecules, to the creation of new molecules, tomaterial science, and indeed to the foundations of life. The Departmentof Chemistry reflects this profound importance and diversity by offeringexcellent research opportunities in areas including organic and inorganicchemistry, chemical biology, analytical chemistry, nanochemistry andtheoretical and experimental physical chemistry. In addition, graduatestudents have the opportunity to participate in interdisciplinary researchin molecular biology, chemical engineering and the Institute for Molecularand Nanoscale Innovation. The faculty student ratio is approximately 3:1with most research groups numbering no more than six graduate students.For more information on admission and program requirements, please visitthe following gradschool/programs/chemistry s/chemistry/)CoursesCHEM 0008E. Exploration of the Chemistry of Renewable Energy.The various types of renewable energy sources will be explored throughclassroom discussions, activities, and laboratories. Students will learnabout the various types of renewable energy sources and the chemistryassociated with each. The course will include short laboratories toillustrate the application of the energy sources. Renewable energy willbe discussed in relationship to environmental factors and social impact.Active learning strategies will be used throughout the course. For studentsof all disciplines who are interested in obtaining an understanding ofrenewable energy.CHEM 0080A. First Year Seminar- Energy.An introductory study of the scientific foundation of energy, fundamentalphysical, chemical, and thermodynamic aspects of common (fossil,nuclear) as well as novel (fuel cells, solar, wind, etc.) energy sources.Concentrates on scientific principles, but includes discussion on resourcesand reserves, environmental impact, current usage, and future needs. Forstudents of all disciplines who are interested in obtaining an understandingof scientific principles of energy. Enrollment limited to 19 first yearstudents.CHEM 0080B. Molecular Structures in Chemistry and Biology.This course will consist of a survey of historical developments andconcepts of three dimensional structures of molecules. The coursewill conclude with a survey of the current state of the art of structuredetermination and 3D structure motifs for small molecules, nanomaterialsand biological macromolecules. This freshman only seminar will be strictlylimited to a maximum of 19 students.CHEM 0080C. Drug Discoveries in the Pharmaceutical Industry.A Freshman seminar that provides a survey of past and currentapproaches that enable the discovery and development of therapeuticagents. Topics ranging from target validation to the development oftherapeutics (small molecules, biologics, and stem cells) will be discussed.Enrollment limited to 19 first-year students.CHEM 0080D. Chemical Ecology: Pheromones, Poisons andChemical Messages.This first year seminar will explore how plants and animals use chemicalsto send and receive information about mating, identify potential hosts,defend themselves, and establish social networks. We will focus on thechemistry and biochemistry of these signals, with some examples of thebehavioral and ecological consequences of chemical signaling. Enrollmentlimited to 19 first year students.CHEM 0080E. Exploration of the Chemistry of Renewable Energy.The various types of renewable energy sources will be explored throughclassroom discussions, activities, and laboratories. Students will learnabout the various types of renewable energy sources and the chemistryassociated with each. The course will include short laboratories toillustrate the application of the energy sources. Renewable energy willbe discussed in relationship to environmental factors and social impact.Active learning strategies will be used throughout the course. For studentsof all disciplines who are interested in obtaining an understanding ofrenewable energy.CHEM 0080F. Kitchen Chemistry.Have you ever wondered why olive oil is a liquid but butter is solid? Or whybread and cookies rise when baked? This Kitchen Chemistry course is anexperimental approach to chemistry, as seen in cooking. We will examinetopics such as trans fats, baking soda as a leavening agent in baking,ripening of fruit, artificial sweeteners, GMOs, and enzymatic and nonenzymatic browning of foods. Edible experiments will be used to discussthe science behind recipes. Enrollment limited to 14 first year students.Instructor permission is required.

ChemistryCHEM 0090. Kitchen Chemistry.Kitchen Chemistry is a course that highlights the chemistry underlyingfood and cooking. We will examine topics such as trans fats, bakingsoda as a leavening agent in baking, chemical basis for ripening of fruit,pectin as a cellular glue, artificial sweeteners, GMOs, and enzymatic andnon-enzymatic browning of foods. In-class demonstrations and edibleexperiments will be used to discuss the science behind cooking. Contentwill be discussed using a variety of contexts including primary scientificliterature, public policy reports, mainstream media, and food blogs. Thisclass is appropriate for all students interested in chemistry.CHEM 0100. Introductory Chemistry.Explores stoichiometry, atomic and molecular structure, chemical bonding,solutions, gases, chemical reactions, equilibria, thermochemistry. -2:501:00-1:50(V. Colvin)(C. Morton)(C. Morton)(C. Morton)(C. Morton)CHEM 0120. Chemistry of the Environment.Focuses on understanding a number of environmental questions fromthe underlying laws and concepts of chemistry and physics. While someknowledge of math, physics and chemistry are useful, none is assumed.Concepts of chemistry and physics will be developed as needed.CHEM 0190. Chemical Ecology: Pheromones, Poisons, and ChemicalMessages.Plants and animals use chemicals to send and receive information aboutmating, identify potential hosts, defend themselves against enemies andpathogens and establish social networks. We will focus on the chemistryand biochemistry of these signals, with some examples of the behavioraland ecological consequences of chemical signaling.CHEM 0330. Equilibrium, Rate, and Structure.Explores the electronic structure of atoms and molecules,thermodynamics, solution equilibrium, electrochemistry, chemical kinetics,and reaction mechanisms. Course includes lecture and laboratorysections. Laboratory cannot be taken without the lecture. To successfullyregister for this course , please include all three components: lecture,lab, and conference. Students who previously passed 0330 lab may beexcused from repeating the lab portion of the course, please register forL11. Required background: CHEM 0100 or AP Chemistry 4 or CHEMPlacement Test 8 or IBC M(B. Rubenstein)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(M. Church)(O. Chen)(E. Victor)(E. Victor)(E. Victor)(E. Victor)(E. Victor)(E. Victor)CHEM 0330L. Equilibrium, Rate, and Structure Lab.Please see course description for CHEM :00-4:40F2:00-5:50Arranged5(L. Wang)(L. Wang)(L. Wang)(L. Wang)(L. Wang)(L. Wang)(L. Wang)(L. Wang)(L. Wang)(L. Wang)(L. Wang)’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'CHEM 0332. Equilibrium, Rate and Structure - Tutorial.The CHEM 0332 tutorial program offers students the opportunity to masterthe concepts taught in the fall semester CHEM 0330: Equilibrium, Rateand Structure course by focusing on active problem solving. Studentswho struggle in the fall CHEM 0330 course may be invited to join thetutorial program. Students accepted into the tutorial program begin byreviewing compound and reaction stoichiometry at the beginning of thespring semester. Tutorial students enroll in CHEM 0332 during the springsemester to complete their studies of equilibrium, acid-base equilibria,thermodynamics, atomic and molecular structure and kinetics. Studentsin the CHEM 0332 tutorial program complete weekly problem sets duringthe spring semester and participate in two mandatory, regularly scheduledproblem sessions during each week of the spring semester.To qualify for consideration, the student must be struggling in the midtermexams and on track to pass the laboratory. Accepted students receivea grade of incomplete for the Fall CHEM 0330 course. Upon successfulcompletion of the CHEM 0332 tutorial program in the spring semester,the incomplete in Fall CHEM 0330 is replaced by the student’s tutorialprogram grade.An override by Ms Sheila Quigley is required.Spr CHEM0332 S01 25104TTh1:00-2:20(08)(C. Morton)CHEM 0350. Organic Chemistry.Sequel to CHEM 0330. Investigates the constitution and properties ofthe different classes of organic compounds, with considerable attentionto reaction mechanisms. The laboratory work involves an introduction tomicroscale preparative and analytical techniques of organic chemistryand the preparation of representative organic compounds. Three hours oflecture and five hours of prelaboratory and laboratory. Prerequisite: CHEM0330.Students MUST register for a conference section, a lecture section,and a lab.If you previously completed CHEM 0350 laboratory but received a grade ofno credit in the course, please register for lab section 11.Spr CHEM0350 S01 25054Spr CHEM0350 S02 26077TThMW9:00-10:20(15)8:30-9:50(02)(C. Morton)(P. Williard)Chemistry5

6ChemistryCHEM 0350L. Organic Chemistry Lab.Please see course description for CHEM 30-6:20F1:00-4:50F2:00-5:50Arranged’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'’To Be Arranged'CHEM 0360. Organic Chemistry.Sequel to CHEM 0350. Investigates the constitution and propertiesof organic compounds at a fundamental level with an introduction tophysical organic, bioorganic, and synthetic organic chemistry. Laboratorywork is concerned with the identification and characterization of organiccompounds, including modern instrumental methods. Three hours oflecture and five hours of prelaboratory and laboratory. Prerequisite: CHEM0350.Students MUST register for a lecture section and a lab.If you previously completed CHEM 0360 laboratory but received a grade ofno credit in the course, please register for lab section 11.Fall CHEM0360 S01 1

CHEM 0350 Organic Chemistry 1 CHEM 0360 Organic Chemistry 1 CHEM 0500 Inorganic Chemistry 1 CHEM 1140 Physical Chemistry: Quantum Chemistry 1 1 . Chemistry at Brown equivalent or greater in scope and scale to work the studen