Select the Course Number to get further detail on the course. Select the desired Schedule Type to find available classes for the course. |
CHEM 100 - INDEPENDENT STUDY: CHEMISTRY |
Limited opportunities to enroll for course work on an Independent Study basis are available. A student interested in this option should obtain an Independent Study Registration Form from the Registrar, have it completed by the instructor and school dean involved, and return it to the Registrar's Office. Consult the current Schedule of Classes for policies concerning Independent Study.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Independent Study Chemistry Department |
CHEM 101 - WORLD OF CHEMISTRY |
This course is designed for non-science majors and has two goals. The first is to give the student an understanding of some of the current issues in chemistry. The second goal of this course is to provide an understanding of the basic principles of chemistry. These principles will be presented in contemporary context including applications of chemical theory and their effects on people and the environment. This course fulfills the General Education category Scientific Reasoning. Our contemporary culture faces increasing distrust in scientific principles. Only citizens with basic scientific sensibility can grapple with the complexity, diversity, and change they will face.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department Course Attributes: Gen Ed 2018, Gen Ed 18-Scientific Reasoning, OLD GE-SCIENCE W EXPERIENTIAL |
CHEM 111 - PRINCIPLES OF CHEMISTRY LECTURE |
Principles of Chemistry is a one semester lecture course designed for students in the allied health fields. It MUST be taken with the co-requisite, Principles of Chemistry lab/recitation. This course introduces the fundamental concepts of general chemistry integrated with the essential features of organic and biological
chemistry. Topics covered include atomic structure, the periodic table, molecular and intermolecular bonding, chemical reactions, the structure, properties and behavior of simple organic molecules, molecular features of carbohydrates, proteins and lipids. The relationship between molecular structure and macroscopic properties is emphasized. Radioactivity, its effects and uses in biological systems are briefly examined. Principles of physics are embedded in the course where appropriate.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department Course Attributes: Gen Ed 2018, Gen Ed 18-Scientific Reasoning |
CHEM 111L - PRINCIPLES OF CHEM LAB/RECITAT |
Principles of Chemistry recitation/lab is a one semester course with recitation and laboratory experiences designed for students in the allied health fields. This course is to be taken in tandem with Principles of Chemistry lecture. This course introduces the fundamental concepts of general chemistry integrated with the
essential features of organic and biological chemistry. Lab activities and exercises reinforce these principles with hands-on work and problem solving. Topics covered include atomic structure, the periodic table, molecular and intermolecular bonding, chemical reactions, the structure, properties and behavior of simple organic molecules, molecular features of carbohydrates, proteins and lipids. The relationship between molecular structure and macroscopic properties is emphasized
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab, Recitation Chemistry Department Course Attributes: Gen Ed 2018, Gen Ed 18-Scientific Reasoning |
CHEM 116 - GENERAL CHEMISTRY I LECTURE |
This Lecture course offers a comprehensive introduction to chemistry for science majors. Chemistry is a mature science that continues to expand and evolve in step with recent developments in science and technology. This course will provide a basic study of atomic structure, chemical measurements, chemical formulas, equations, chemical reactions, nomenclature, gas laws, quantum theory, periodicity, ionic and covalent bonding and chemical bonding theory. This course introduces students to the language and theoretical foundations chemistry. Students will learn to conceptualize abstract ideas about atoms and molecules. The depth and breadth of the topics covered meet or exceed the standards of the American Chemical Society. Required for Biochemistry, Chemistry, Environmental Science, and Biology majors, and recommended for Physics majors.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department Course Attributes: Gen Ed 2018, Gen Ed 18-Scientific Reasoning |
CHEM 116L - GENERAL CHEMISTRY I LAB |
This lab course is complementary to the General Chemistry I lecture course which is taken concurrently. The experiments were chosen to reinforce ideas and concepts that are introduced in the lecture. Students will perform experiments in the areas of properties of matter, chemical formulas, chemical reactions, volumetric methods, graphical analysis, properties of gases, atomic spectroscopy, and molecular geometry and bonding. Students will begin to build a foundation of
chemical experimentation techniques that will be useful in all science disciplines.
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department Course Attributes: Gen Ed 2018, Gen Ed 18-Scientific Reasoning |
CHEM 117 - GENERAL CHEMISTRY II LECTURE |
This Lecture course offers a comprehensive introduction to chemistry for science majors. Chemistry is a mature science that continues to expand and evolve in step with recent developments in science and technology. This course will provide a basic study of atomic structure, chemical measurements, chemical formulas, equations, chemical reactions, nomenclature, gas laws, quantum theory, periodicity, ionic and covalent bonding and chemical bonding theory. This course introduces students to the language and theoretical foundations chemistry. Students will learn to conceptualize abstract ideas about atoms and molecules. The depth and breadth of the topics covered meet or exceed the standards of the American Chemical Society. Required for Biochemistry, Chemistry, Environmental Science, and Biology majors, and recommended for Physics majors.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department |
CHEM 117L - GENERAL CHEMISTRY II LAB |
This lab course is complementary to the General Chemistry ll lecture course which is taken concurrently. The experiments were chosen to reinforce ideas and concepts that are introduced in the lecture. Students will perform experiments in the areas of properties of liquids and solutions, intermolecular forces, colligative properties, kinetics, solution equilibria, acid-base equilibria, buffers, solubility equilibria, thermochemistry, and thermodynamics. Students will continue to build upon the background of chemical experimentation techniques that were garnered in General Chemistry I lab.
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department |
CHEM 120 - PRINCIPLES OF CHEMISTRY II: LECTURE AND LAB |
This course covers areas of biochemistry with a focus on health-related topics. These include the chemistry of food and metabolism, enzymes, vitamins, hormones, nucleic acids and body fluids. Recommended for Nursing majors. Three hours of lecture/discussion and four hours of lab/recitation. Lab Fee.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lab, Lecture Chemistry Department |
CHEM 198 - TRANSFER ELECTIVE |
This course designation describes a transfer course from another institution where an equivalency to a Ramapo College course has not been determined. Upon convener evaluation, this course ID may be changed to an equivalent of a Ramapo College course or may fulfill a requirement.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 199 - TRANSFER ELECTIVE |
This course designation is used to describe a transfer course from another institution which has been evaluated by the convener. A course with this course number has no equivalent Ramapo course. It may fulfill a requirement or may count as a free elective.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 200 - INDEPENDENT STUDY: CHEMISTRY |
Limited opportunities to enroll for course work on an Independent Study basis are available. A student interested in this option should obtain an Independent Study Registration Form from the Registrar, have it completed by the instructor and school dean involved, and return it to the Registrar's Office. Consult the current Schedule of Classes for policies concerning Independent Study.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Independent Study Chemistry Department |
CHEM 206 - ESSNTLS ORGANIC CHEMISTRY LEC |
This course offers an introduction to basic modern organic chemistry and it will predominantly be of interest to students majoring in biology or bioinformatics who do not require the traditional two-semester organic chemistry sequence (Chem 210/212). Therefore students who do not plan on applying to medical school or graduate school can take this course instead of the two-semester organic chemistry sequence. This course will introduce students to the principles of
organic structure, nomenclature, conformational analysis, stereochemistry, functional group transformations, aromatic compounds, amino acids, and nucleic acids providing the language and theoretical foundations of organic chemistry. In addition, the course will include sections on infrared (IR) and nuclear magnetic resonance (NMR) spectroscopy as tools to determine chemical structure.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department |
CHEM 206L - ESSNTLS ORGANIC CHEMISTRY LAB |
This course offers an introduction to basic modern organic chemistry and it will predominantly be of interest to students majoring in biology or bioinformatics who do not require the traditional two-semester organic chemistry sequence (Chem 210/212). Therefore students who do not plan on applying to medical school or graduate school can take this course instead of the two-semester organic chemistry sequence. This course will introduce students to a variety of essential
laboratory techniques applicable to the identification, purification, separation, and synthesis of organic compounds. In addition, the course will include sections on infrared (IR) and nuclear magnetic resonance (NMR) spectroscopy as tools to determine chemical structure.
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department |
CHEM 211 - ORGANIC CHEMISTRY I LECTURE |
This course offers a comprehensive introduction to basic modem organic chemistry and will be of interest to students majoring in chemistry, biochemistry, biology, and related sciences. This course introduces students to the language and
theoretical foundations of organic chemistry. This course will introduce students to the principles of organic structure (alkanes, alkenes, alkynes, alcohols, carbonyl compounds and stereochemistry, and will learn the basic principles of infrared (IR), spectroscopy and nuclear magnetic resonance spectroscopy (NMR). Emphasis will be placed on the synthesis of organic molecules; this will include the conversion of one class of organic compound to others. In addition, the properties of these organic compounds will be discussed. Organic chemistry is a multifaceted science that is central to other related sciences including biochemistry and medicinal chemistry.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department |
CHEM 211L - ORGANIC CHEMISTRY I LAB |
This course offers a comprehensive introduction to a variety of essential laboratory techniques applicable to the identification, purification, separation,
synthesis, and analysis of organic compounds and will be of interest to students majoring in chemistry, biochemistry, biology, and related sciences. This course will introduce students to the principles of organic structure, and will learn the basic principles of infrared (IR) and nuclear magnetic resonance (NMR) spectroscopy. Emphasis will be placed on the techniques of organic chemistry and synthesis of organic molecules; this will include the conversion of one class of organic compound to others.
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department |
CHEM 213 - ORGANIC CHEMISTRY II LECTURE |
This 4 credit Lecture/Laboratory course offers a comprehensive introduction to basic modern organic chemistry and will be of interest to students majoring in chemistry, biochemistry, biology, and related sciences. Students taking this course
will already have been introduced to the principles of organic structure (alkyl halides, alkanes, alkenes, alkynes, alcohols), conformational analysis and stereochemistry. This course will build on these general principles and will include details on the synthesis and reactions of alcohols, ethers, aromatic compounds, aldehydes, ketones, esters, carboxylic acids, amides, amines and derivatives of phenols. You will also expand your ability to design syntheses of organic
compounds with various functional groups and will get more practice with retrosynthetic analysis. Interpretation of nuclear magnetic resonance (N MR) spectroscopy will be used a tool to determine chemical structure. Organic chemistry is a multifaceted science that is central to other related sciences including biochemistry and medicinal chemistry.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department |
CHEM 213L - ORGANIC CHEMISTRY II LAB |
Students taking this course will already have been introduced to the principles of organic structure, basic techniques, and the basic principles of spectroscopy. This course will expand on these techniques and principles and continue to emphasize synthetic strategies. This course will be of interest to students majoring in chemistry, biochemistry, biology, and related sciences. This course focuses on single and multi-step synthesis using alcohols, conjugated dienes, aromatic compounds, and carbonyl compounds.
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department |
CHEM 298 - TRANSFER ELECTIVE |
This course designation describes a transfer course from another institution where an equivalency to a Ramapo College course has not been determined. Upon convener evaluation, this course ID may be changed to an equivalent of a Ramapo College course or may fulfill a requirement.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 299 - TRANSFER ELECTIVE |
This course designation is used to describe a transfer course from another institution which has been evaluated by the convener. A course with this course number has no equivalent Ramapo course. It may fulfill a requirement or may count as a free elective.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 300 - INDEPENDENT STUDY: CHEMISTRY |
Limited opportunities to enroll for course work on an Independent Study basis are available. A student interested in this option should obtain an Independent Study Registration Form from the Registrar, have it completed by the instructor and school dean involved, and return it to the Registrar's Office. Consult the current Schedule of Classes for policies concerning Independent Study.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Independent Study Chemistry Department |
CHEM 311 - TECHNIQUES OF CHEMICAL ANALYSIS |
In analytical chemistry, fundamental chemical principles are utilized for the characterization (both qualitative and quantitative) of various substances. It is, arguably, the most widely practiced area of chemistry, and one that students should be introduced to early in their chemical education. Analytical chemistry is used by the forensic scientist to solve crime, and by the environmental scientist to monitor the quality of water, air, and soil. Chemists who specialize in analysis contribute to all parts of the chemical enterprise. They support research projects, help optimize manufacturing processes, and assure the quality of important products such as materials, foods, and pharmaceuticals. This course teaches the fundamentals underlying modern techniques for chemical analysis. It is intended for those who want an overview of chemical analysis, particularly for those interested in chemical education. It will cover the topics needed for the Chemistry Praxis examination. This course does not satisfy degree requirements for the chemistry, biochemistry, or environmental science major, nor does it apply to the chemistry minor. The lecture begins with a discussion of the principles of measurement and the statistical treatment of data. Once these fundamental themes have been covered, several techniques--classical ("wet"), gravimetric, volumetric--will be explained in detail. Discussions of electrochemistry, spectroscopy and chromatography will also be provided. The laboratory introduces "real-world" applications of these principles to a variety of sample types. Students will develop facility with standard laboratory report formats and with the use of spreadsheets for data analysis.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 312 - CHEMISTRY IN CURRENT TOPICS |
Chemistry touches many areas of our lives, and this course will focus on three particular topics: (1) Environmental Chemistry. This segment focuses on the application of fundamental principles of organic, physical, and analytical chemistry to issues of environmental quality, including air, water, soil, and climate; (2) Food Chemistry. This segment addresses the biochemistry of food and nutrition; and (3) Forensic Chemistry. In this segment, chemical approaches and techniques related to forensic science and homeland security will be discussed. This course relates all areas of chemistry (organic, inorganic, physical, analytical, and biochemistry) to issues important in today's world. It is particularly intended for those students interested in chemical education. It will relate to the topics covered in the Chemistry Praxis examination. This course does not satisfy degree requirements for the chemistry, biochemistry, or environmental science major, nor does it apply to the chemistry minor. Students will independently develop laboratory activities suitable for young (high school or earlier) students or the general public relating to each segment of the course. These can be designed for a laboratory or public setting. In this course, students will learn: (1) Basic principles and concepts of environmental chemistry; (2) Basic principles and concepts of food chemistry and biochemistry; (3) Basic principles and concepts of forensic chemistry; (4) How to relate the fundamentals of organic, inorganic, physical, analytical, and biochemistry to each of these topics; and (5) How to develop hands-on activities that illustrate important topics in environmental, food, and forensic chemistry.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 324 - QUANTITATIVE CHEM ANALYSIS LEC |
The key concepts of guantitative analysis will be discussed. The principles of measurement, statistical treatment of data, new method development and validation, record keeping, and quality monitoring will be covered. A study of several techniques, including gravimetric and volumetric, will be explained in detail, along with the effects of chemical equilibrium and non-ideal actions of nature on analyses. Introductions to basic spectroscopy, separations and
electrochemistry will also be made. This course is also intended to give you an opportunity to develop your data manipulation and problem solving abilities, as well as your critical thinking skills.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department |
CHEM 324L - QUANTITATIVE CHEM ANALYSIS LAB |
The principles of measurement, statistical treatment of data, and record keeping will be covered. Several analytical methods, including gravimetric and volumetric analysis will be put into practice. Students will develop proper analytical techniques for sample preparation and measurement. This course is also intended to give you an opportunity to develop your data manipulation and problem solving abilities, as well as your critical thinking skills. Lab fee.
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department |
CHEM 345 - MATERIALS SCIENCE |
A study of the preparation, modification, and characterization of ceramic, polymeric, and composite materials. Synthetic methods that are used to prepare polymers and ceramic materials will be reviewed. Atomic structure and bonding and structure property relationships will be emphasized. Methods of characterization and novel applications of materials will be surveyed.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Online Course Chemistry Department |
CHEM 350 - PHYSICAL CHEMISTRY I LECTURE |
Physical Chemistry is the branch of chemistry that is concerned with the physical and mathematical foundations that underlie all chemical systems and processes. Physical chemistry attempts to explain the laws of nature in a quantitative manner. Mathematical equations are derived from observations of natural processes in order to describe how and why these processes occur. The field of Physical chemistry can be subdivided into five branches: thermodynamics, kinetics, quantum chemistry, spectroscopy, and statistical mechanics. This semester, we will restrict our study to the study of thermodynamics and kinetics. Thermodynamics is concerned with the macroscopic world and was developed
before knowledge of the existence of the atom. Typically, thermodynamic quantities such as heat, enthalpy, entropy, and the Gibbs energy are based on measurements involving a large number of molecules in different states and under different environmental conditions. The major strength of thermodynamic analysis allows chemists to determine if chemical reactions and physical processes are spontaneous. Kinetics is concerned with the measurement of reaction rates. Information about the speed with which reactants transform into products in a
chemical reaction can lead to the elucidation of the detailed reaction mechanism.
This course is designed to provide you with a foundation in selected topics of physical chemistry so that you will be thoroughly prepared to take the standardized American Chemical Society (ACS) examination. ACS exams are often
used as entrance examinations in graduate programs in chemistry in the United States. If you are interested in pursuing an industrial/institutional career in chemistry with a 8.5. degree, this course will prepare you to tackle
practical and theoretical problems in chemistry by developing your quantitative and analytical reasoning skills.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department |
CHEM 350L - PHYSICAL CHEMISTRY I LAB |
In this course, you will put into practice the principles and theories that were introduced in the Physical Chemistry I lecture course. You will conduct experiments that are designed to discern the macroscopic properties of condensed phases. Experiments in this course involve the following physical concepts:
thermochemistry, surface tension, ionic conductivity, the relationship between viscosity and molecular weights of polymers, colligative properties, phase diagrams, partial molar volume, kinetics of vesicle formation, kinetics of a diol formation reaction, and equilibrium constants of a weak base. You will devote
careful attention to proper measurement techniques of chemical and physical properties. You will develop your ability to interpret your experimental results using the underlying theory that governs the system. In most of these experiments, you will further develop your understanding of statistical analysis in order to characterize measurement uncertainty. This is a writing intensive course. You will write formal lab reports in the format ofjournal articles in the field of physical chemistry. You will also assume the role of a journal referee by reviewing completed lab reports of peers and offering constructive criticism.
0.000 TO 1.500 Credit hours 0.000 TO 1.500 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department Course Attributes: WRITING INTENSIVE |
CHEM 352 - PHYSICAL CHEMISTRY II LECTURE |
Physical Chemistry is the branch of chemistry that is concerned with the theoretical and experimental aspects that underlie all chemical processes. Physical chemistry attempts to develop an understanding of the laws of nature in a quantitative manner. Mathematical equations are derived from observations of natural processes in order to describe how and why these processes occur.
Physical chemistry can be subdivided into five branches: thermodynamics, kinetics, quantum chemistry, spectroscopy, and statistical mechanics. This semester we will restrict our attention to the study of quantum mechanics and spectroscopy. Quantum mechanics examines the atomic and molecular
structure and energy of single atomic and molecular species, as opposed to the states of matter and energy of large collections of atoms and molecules which we dealt with when we studied thermodynamics. Spectroscopy is the experimental application of quantum chemistry; spectroscopy deals with measuring the electronic, vibrational, and rotational energies of atomic and molecular species.
This course is designed to provide students with a broad foundation in topics of physical chemistry and to provide students with a thorough preparation to take the standardized American Chemical Society examination These exams are often used as entrance examinations in graduate programs in chemistry in the United States. For those students interested in pursuing a career in chemistry with a B.S. degree,
this course will prepare them by developing their skills in interpreting chemical data and providing them with the ability to understand why certain reactions and processes occur as they do.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department |
CHEM 352L - PHYSICAL CHEMISTRY II LAB |
Physical Chemistry is the branch of chemistry that is concerned with the theoretical and experimental aspects that underlie all chemical processes. Physical chemistry attempts to develop an understanding of the laws of nature in a quantitative manner. Mathematical equations are derived from observations of natural processes in order to describe how and why these processes occur.
Physical chemistry can be subdivided into five branches: thermodynamics, kinetics, quantum chemistry, spectroscopy, and statistical mechanics. This semester we will restrict our attention to the study of quantum mechanics and spectroscopy. Quantum mechanics examines the atomic and molecular
structure and energy of single atomic and molecular species, as opposed to the states of matter and energy of large collections of atoms and molecules which we dealt with when we studied thermodynamics. Spectroscopy is the experimental application of quantum chemistry; spectroscopy deals with measuring the electronic, vibrational, and rotational energies of atomic and molecular species.
This course is designed to provide students with a broad foundation in topics of physical chemistry and to provide students with a thorough preparation to take the standardized American Chemical Society examination These exams are often used as entrance examinations in graduate programs in chemistry in the United States. For those students interested in pursuing a career in chemistry with a B.S. degree,
this course will prepare them by developing their skills in interpreting chemical data and providing them with the ability to understand why certain reactions and processes occur as they do.
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department Course Attributes: WRITING INTENSIVE |
CHEM 388 - CO-OP/INTERNSHIP CHEMISTRY |
An academic program in which students are placed in work positions relevant to their academic majors and career goals. The program integrates academic work on-campus with supervised off-campus work experience in both the public and private sectors. Students may take up to two Co-ops in their academic career at Ramapo College. Students must be at least a Sophomore and have a 2.0 or better average to be eligible. Transfer students must have completed at least 16 credits at Ramapo.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Co-Op Chemistry Department |
CHEM 398 - TRANSFER ELECTIVE |
This course designation describes a transfer course from another institution where an equivalency to a Ramapo College course has not been determined. Upon convener evaluation, this course ID may be changed to an equivalent of a Ramapo College course or may fulfill a requirement.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 399 - TRANSFER ELECTIVE |
This course designation is used to describe a transfer course from another institution which has been evaluated by the convener. A course with this course number has no equivalent Ramapo course. It may fulfill a requirement or may count as a free elective.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 400 - INDEPENDENT STUDY: CHEMISTRY |
Limited opportunities to enroll for course work on an Independent Study basis are available. A student interested in this option should obtain an Independent Study Registration Form from the Registrar, have it completed by the instructor and school dean involved, and return it to the Registrar's Office. Consult the current Schedule of Classes for policies concerning Independent Study.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Independent Study Chemistry Department |
CHEM 411 - CHEMISTRY TEACHING ASSISTANT |
This part of a series of four courses (CHEM 411, 412, 421, and 422) will be offered every semester. Each course will be worth 1 credit. TAs must have obtained a B or better in previous lecture/lab courses and must fill out an application, which includes a written statement of support from a chemistry professor. TAs will enroll in the course and be assigned to a professor during a specific day and time. The student TA must have the 3 hours of class time free in their schedule to be in the lab class. Special permission of the instructor is required.
This is a program that will allow the students to participate in a teaching assistant program. TAs will help to make sure the students are working safely, using equipment properly, and performing lab techniques correctly. The obligations of the TAs include, but are not limited to: holding tutoring sessions, aiding in enforcement of labortory rules and safety practices; notifying instructors or lab personnel or errors or problems with labortory equipment. Lab Fee.
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 421 - ADVANCED ORGANIC CHEMISTRY |
This course is a study of modern organic chemistry theories, mechanisms, and synthesis. Some of the areas to be covered are reaction kinetics and mechanisms, scope and planning or organic syntheses, and instrumental and chromatographic methods of structure determination of organic compounds. In addition, literature searching using STN-Express will be covered. Students will write and present a paper on an advanced organic topic of interest. Lab Fee.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Online Course Chemistry Department |
CHEM 425 - BIOCHEMISTRY |
This course offers a comprehensive introduction to basic modern biochemistry and will be of interest to students majoring in chemistry, biochemistry, biology, and related sciences. This course will introduce students to the principles of protein structure (amino acid chemistry, peptide and protein structure and protein folding), introduction to enzymes (mechanisms, enzyme kinetics and inhibition), introduction to nucleic acids (nucleotides and nucleic acid chemistry, DNA sequencing, protein and genetic engineering) and metabolism (carbohydrate structure, glucose catabolism, citric acid cycle). This course introduces students to the language and theoretical foundations of biochemistry.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Online Course Chemistry Department |
CHEM 426 - BIOCHEMISTRY I LECTURE AND LAB |
This course offers a comprehensive introduction to basic modern biochemistry. The lecture course will introduce students to the biochemical principles of protein and nucleic acids (structure and function of protein and nucleic acids), enzymes (enzyme kinetics and mechanisms), carbohydrates, lipids and biological membranes. The basic biochemical topics discussed in this course will be expanded further and discussed in depth during Biochemistry II (CHEM 446) course. The lab course will introduce students to basic biochemical laboratory techniques such as computing techniques in biochemical research, separation and identification of amino acids, structural analysis of peptides, protein purification including column chromatography, purification of lipids, carbohydrate analysis, DNA and protein analysis. This course is required for Biochemistry majors and recommended for Chemistry and Biology majors. Lab Fee.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lab, Lecture Chemistry Department |
CHEM 427 - INSTRUMENTAL ANALYSIS LECTURE |
The theory and practice of chemical analysis by instrumental methods will be discussed. The techniques include both atomic and molecular spectroscopy, as well as separations analysis. The physical principles underlying these measurements will be covered. This course is also intended to give you an opportunity to develop your data manipulation and problem solving abilities, as well as your critical thinking skills.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Biology Department |
CHEM 427L - INSTRUMENTAL ANALYSIS LAB |
The theory and practice of chemical analysis by instrumental methods will be discussed. The techniques include both atomic and molecular spectroscopy, as well as separations analysis. The physical principles underlying these measurements will be covered. Students will develop further facility with various standard laboratory report formats and with the use of spreadsheets for data analysis. This course is also intended to give you an opportunity to develop your data
manipulation and problem solving abilities, as well as your critical thinking skills. Writing Intensive. Lab fee.
0.000 TO 1.500 Credit hours 0.000 TO 1.500 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department Course Attributes: WRITING INTENSIVE |
CHEM 430 - EXPERIMENTAL BIOCHEMISTRY |
This lab course is complementary to the Biochemistry lecture course (CHEM 426-01) which is taken after the lecture course. The experiments were chosen to reinforce ideas and concepts that are introduced in the lecture. This course
will introduce students to laboratory techniques such as computing techniques in biochemical research, separation and identification of amino acids, gel electrophoresis analysis of protein and DNA, protein purification including column
chromatography, protein quantitation and kinetic assays, purification of lipids, and general molecular cloning techniques. A pre-laboratory lecture will precede each new laboratory experiment and post-laboratory discussion will be provided after each experiment. To provide the experience in scientific communication skill, there will be In-Class presentations by students and currently published empirical papers in the area of biochemical research will be reviewed and presented by the students.
0.000 TO 2.000 Credit hours 0.000 TO 2.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department |
CHEM 445 - MEDICINAL CHEMISTRY |
This course offers a comprehensive introduction to basic modern medicinal chemistry and will be of interest to students majoring in chemistry, biochemistry, biology, bioinformatics and related sciences. This course will introduce students to the principles of how drugs are discovered and their mechanism of biological activity. Areas to be covered include amino acid chemistry, peptide and protein structure, introduction to biological membranes, enzymes (mechanism of action), receptors, drug metabolism, viruses, vaccines and pharmacokinetics of drugs. In addition, the course will include chemical synthesis of relevant drugs including peptide synthesis and combinatorial libraries. Sections on holistic medicine and marketing new drugs will be included. Students will also be required to present a seminar on a therapeutic topic to be arranged with the instructor. The seminar will be a power point presentation on the latest findings of the therapeutic and will include a discussion on the background, recent results and discussion on the therapeutic potential of the drug. Medicinal chemistry is a rapidly developing area at the crossroads of chemistry, biology and biochemistry that continues to expand and evolve. This course introduces students to the language and theoretical foundations of medicinal chemistry.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Online Course Chemistry Department |
CHEM 446 - BIOCHEMISTRY II LECTURE |
The course offers the studies and discussions of the advanced biochemical topics including proteins, nucleic acids, enzymes, carbohydrates, lipids and biological membranes, membrane transport, biochemical signaling, central dogma of life (replication, transcription and translation) and metabolism (glycolysis, citric acid cycle, lipid metabolism, photosynthesis and nitrogen metabolism). The advanced knowledge of the biochemical, structural and functional studies of the various bio-molecules will provide understanding of biochemical processes in depth and the molecular level approach to medicine. This course is required for Biochemistry majors and recommended for Chemistry and Biology majors.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Online Course Chemistry Department Course Attributes: WRITING INTENSIVE |
CHEM 448 - CHEMICAL RESEARCH |
A course designed to give chemistry students an introduction to the research experience. The student will select a project supervisor from among the chemistry and biochemistry faculty and will commence working on a research project at the beginning of the fall semester. The project continues throughout the spring semester. The student officially registers for this course during the spring semester. The project will consist of experimental or theoretical work, a written research report and an oral presentation. Approximately 4-5 hours per week of laboratory experimentation over the period of the academic year. Offered annually. Lab Fee.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 450 - SPECIAL TOPICS |
The descriptions and topics of this course change from semester-to-semester, as well as from instructor-to-instructor. Prerequisite: varies with the topic offered. CHEM 450 MEDICINAL CHEMISTRY. This course will introduce students to the language and theoretical foundations of Medicinal Chemistry. Students will learn the historical origins of therapeutics. Some of the topics that will be discussed in this course include: Drug Discovery, Combinatorial Libraries, Receptors, Enzymes, DNA Interactions, Drug Metabolism, Prodrugs and Drug Delivery Systems. Lab Fee.
0.000 TO 8.000 Credit hours 0.000 TO 8.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Online Course Chemistry Department |
CHEM 451 - ADVANCED INORGANIC CHEMISTRY LECTURE |
This 4-credit Lecture course is designed to expose students to a deeper understanding of the theoretical concepts of Inorganic Chemistry. The course will progress beyond the descriptive chemical concepts that are introduced in Fundamentals of Chemistry, and will address questions of structure and reactivity in this oldest branch of chemistry. Emphasis will be placed on the study of structure and bonding, inorganic and organometallic complexes, and reaction mechanisms. The course begins with a recap of the fundamentals of inorganic chemistry, including models of the atom, quantum numbers, shapes of atomic orbitals and the atomic orbital energy level diagram. Lewis structures, VSEPR
and Hybridization Theory provide an introduction to simple models of structure. The
symmetry of molecules is investigated using Group Theory. Molecular Orbital Theory is then introduced, as applied to diatomic, polyatomic and cyclic molecules and Walsh's diagrams. The Introduction to Coordination chemistry includes definitions, nomenclature, electron configurations and oxidation states. A more detailed study involves the application of Valence Bond Theory, Crystal Field/Ligand Field Theory and the Spectrochemical series. A Molecular Orbital approach to Coordination Compounds is then discussed, followed by a review of Coordination Numbers, types of Ligands and molecular geometries. The stereochemistry and isomerism of coordination compounds is then discussed, including a look at denticity and the Chelate Effect. The principles of
Organometallic Chemistry are then introduced, including the application of the 18-
electron rule and a review of Metal-Ligand bonding. This is followed by a study of the synthesis and reactivity of transition metal complexes, a review of important
stoichiometric reactions of organometallic complexes and a survey of selected catalytic reactions. The course will conclude with a review of the role that metals and metal complexes play in biological systems.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lecture, Lecture/Online, Online Course Chemistry Department |
CHEM 451L - ADVANCED INORGANIC CHEMISTRY LAB |
This l-credit laboratory course is the experimental companion of Advanced Inorganic Chemistry Lecture. Students perform one experiment in each of the following four sub-disciplines of inorganic chemistry: (1) Chemistry of the main group elements, (2) Chemistry of the transition metals, (3) Chemistry of organometallic compounds, and (4) Bio-inorganic chemistry. In addition, students will complete an additional experiment in (5) Applied Catalysis. Students use microscale techniques to synthesize compounds and several characterization techniques are used to analyze the products including: FTIR, NMR, GC, Visible spectrometry and magnetic moment using an Evans magnetic susceptibility balance. Each of the experiments takes approximately 2 to 4 weeks to complete, including synthesis and characterization for each. This course will reinforce the techniques and skills that synthetic inorganic chemists employ in their work and students will be encouraged to develop their lab skills in an independent manner.
0.000 TO 1.000 Credit hours 0.000 TO 1.000 Lecture hours Levels: Undergraduate Schedule Types: Hybrid, Lab Chemistry Department |
CHEM 498 - TRANSFER ELECTIVE |
This course designation describes a transfer course from another institution where an equivalency to a Ramapo College course has not been determined. Upon convener evaluation, this course ID may be changed to an equivalent of a Ramapo College course or may fulfill a requirement.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |
CHEM 499 - TRANSFER ELECTIVE |
This course designation is used to describe a transfer course from another institution which has been evaluated by the convener. A course with this course number has no equivalent Ramapo course. It may fulfill a requirement or may count as a free elective.
0.000 TO 4.000 Credit hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Chemistry Department |