Curriculum Requirements
Bachelor of Science in Chemistry
General Education
Foundations | Credits: | |
FCWR 101 | Writing I: Foundations of College Composition | 3 |
Prerequisite: Prerequisite: WRIT 100 or Writing Placement Exam A course introducing students to the fundamentals of college composition. Topics include writing process, rhetorical strategies, basics of critical reading and thinking, analytical writing, and argumentative writing. This course serves as a foundation to prepare students to succeed in other academic writing contexts. Coursework includes a computer lab component. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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FCWR 151 | Writing II: Foundations of Research Writing | 3 |
Prerequisite: Prerequisite: FCWR 101 or WRIT 101 Further development of the academic writing process, critical thinking, and analytical reading skills taught in FCWR 101. Focus on academic research planning, source evaluation skills, and audience awareness leading to a documented research paper. Specific attention to academic integrity in research writing. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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FCWR 302 | Communication for Healthcare Careers | 3 |
Prerequisite: Prerequisite: Take one course in each group: Group 1 (FCWR 101 or FCWR 111 or WRIT 101 or WRIT 111) and Group 2 (FCWR 151 or FCWR 161 or WRIT 151 or WRIT 161) Building on courses taken in their majors, students will learn and apply concepts of effective written and oral expression appropriate for careers in the health and biology professions. In addition to closely examining a variety of texts across the discipline, students will develop public speaking skills while also learning to collaborate on grant proposals, literature reviews, pamphlets and posters, and a research paper. Topics covered include the rhetoric of writing in the health professions, ethics, images in the sciences, grant- and abstract writing, and researching and writing publishable manuscripts. Course work includes a computer lab component. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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Please view all course descriptions: http://www.nyit.edu/courses | ||
FCWR 304 | Communication for Technical Professions | 3 |
Prerequisite: Prerequisite: Take one course in each group: Group 1 (FCWR 101 or FCWR 111 or WRIT 101 or WRIT 111) and Group 2 (FCWR 151 or FCWR 161 or WRIT 151 or WRIT 161) Building on courses taken in their majors, students will learn and apply concepts of effective written and oral expression appropriate for careers in the technology professions, such as engineering and computer science. In addition to modes of technical discourse (definition, description, analysis, interpretation), this course emphasizes strategies for effective business communication in the technical professions and stylistics of technical communication. Methods and procedures of research are explored in depth. Course work includes a computer lab component, oral presentation of final reports using presentation software, and exploration of appropriate technology for technical communication. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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Total: 9 Credits | ||
Data Literacy | Credits: | |
DATA 101 | Making Sense of a Data-Oriented Society | 3 |
This course introduces students to the power of data as applied to real-life problems in today's data-driven world. Students will learn basic statistical concepts, how to identify reliable data, and to think critically about how to extract meaning from data. The course will discuss various biases, including social biases, how they affect data gathering and analysis, and how to address these biases. The course will also address ethical and moral issues associated with statistics, data collection and visualization, and data analysis. Students will learn how to present a narrative supported by data. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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Seminars (select courses from at least three of the four areas) | Credits: | |
ICBS 3XX | Behavioral Science choice | 3 |
Please view all course descriptions: http://www.nyit.edu/courses | ||
ICLT 3XX | Literature choice | 3 |
Please view all course descriptions: http://www.nyit.edu/courses | ||
ICPH 3XX | Philosophy choice | 3 |
Please view all course descriptions: http://www.nyit.edu/courses | ||
ICSS 3XX | Social Science/Economics choice | 3 |
Please view all course descriptions: http://www.nyit.edu/courses | ||
Total: 12 Credits | ||
Students must take four seminar courses from at least three different areas of study. | ||
Math and Science Core | Credits: | |
MATH 141 | Precalculus | 4 |
Prerequisite: Prerequisite: MATH 101 or Math Placement Exam. A study of relations and functions; inequalities; complex numbers; quadratic equations; linear systems of equations; higher degree equations; trigonometric functions; identities; functions of composite angles; graphs of the trigonometric functions; exponential and logarithmic functions; and binomial theorem. Note: A graphing calculator is used throughout the course. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 5-0-4 |
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BIOL 110 | General Biology I | 4 |
The similarity in living things is demonstrated by a molecular and cellular approach to biology. After introductory biochemistry, the cell as the basic unit of life is studied structurally and metabolically. Life functions are examined from a cellular and from a vertebrate-organismic viewpoint. The central theme is the flow of energy between the biosphere and the ecosphere. The scientific method and hypothesis-testing are stressed as a means of investigation and forming conclusions. Collaborative laboratory assignments will include microscopic studies of the cell, its functions, and the dissection of a fetal pig. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-4 |
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Total: 8 Credits | ||
Major Requirements
Chemistry | Credits: | |
CHEM 110 | General Chemistry I | 4 |
Prerequisite: Co-requisite: MATH 135 or TMAT 135, MATH 136 or TMAT 155, MATH 141, MATH 161, or MATH 170 An introduction to theoretical and inorganic chemistry. Studies include: types of matter, atomic structure, the periodic table, chemical bonding, states of matter, solutions, chemical reactions, gas laws, and chemical calculations. Laboratory work illustrates common laboratory techniques as well as chemical principles. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-4 |
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CHEM 150 | General Chemistry II | 4 |
Prerequisite: Prerequisite: CHEM 110 A continuation of CHEM 110. Topics to be covered include thermochemistry, chemical kinetics, chemical equilibria, acids and bases, ionic equilibria, oxidation-reduction reactions, and electrochemistry. Laboratory work illustrates the principles discussed in the lecture. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-4 |
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CHEM 210 | Organic Chemistry I | 4 |
Prerequisite: Prerequisite: CHEM 150 This course includes the study of the stereochemistry and electronic structure of aliphatic and aromatic compounds, and the properties of their functional groups. Laboratory work consists of the determination of physical constants and the preparation of various organic compounds. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-4 |
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CHEM 250 | Organic Chemistry II | 4 |
Prerequisite: Prerequisite: CHEM 210 A continuation of Organic Chemistry I. Studies include: the advanced theoretical treatment of reaction mechanisms, spectroscopic properties of organic compounds, and configurations of some important biological systems. Laboratory work consists of more advanced organic syntheses and qualitative organic analysis. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-4 |
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CHEM 310 | Quantitative Analysis | 4 |
Prerequisite: Prerequisite: CHEM 150 An introduction to the principles and calculations of quantitative analysis. Topics include: chemical stoichiometry, acid and base concepts, ionic equilibria, acid-base titrations, spectrophotometry, oxidation-reduction reactions, complex compounds, gravimetric analysis, and precipitation titrations .Laboratory work consists of elementary gravimetric, volumetric, and instrumental analysis. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-5-4 |
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CHEM 350 | Instrumental Analysis | 3 |
Prerequisite: Prerequisite: CHEM 310 This course represents a study of the operational principles and application of the instrumental methods for quantitative identification of compounds and determination of their chemical structure. Students will learn about principles involved in operation and data analysis for an array of modern laboratory instruments corresponding to electrochemical, spectrophotometric, and chromatographic methods. The key aspect of the class is for students to become knowledgeable of the scope of applicability as well as advantages and disadvantages of each method. The emphasis of this course is on learning the operational features and developing the insight that is necessary to choose the right tool to provide a quantitative solution to a given chemical problem. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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CHEM 395 | Introduction to Research Design | 3 |
Prerequisite: Prerequisite: Any 300 level CHEM course This course will provide you with an opportunity to explore scientific research and review articles in several areas of biomedical and chemical research and discuss: a) research design; b) experimental material and techniques; c) analysis, interpretation, presentation and critique of data/ results; d) statistical analyses; and e) improving your scientific writing and oral presentation skills. Classroom Hours- Laboratory and/ or Studio Hours- Course Credits: 3-0-3 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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CHEM 410 | Physical Chemistry I | 4 |
Prerequisite: Prerequisite: CHEM 310 and Co- requisite : MATH 170 A study of the fundamental principles of modern physical chemistry. Topics include: the kinetic theory of gases, thermodynamics, thermochemistry, properties of solutions, and chemical kinetics. Laboratory work is designed to illustrate the fundamental laws and basic physicochemical methods. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-4 |
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CHEM 450 | Physical Chemistry II | 4 |
Prerequisite: Prerequisite: CHEM 410, Co-requisite: MATH 180 A continuation of Physical Chemistry I. Topics include: electrochemistry, chemical bonding, spectroscopy, photochemistry, physical biochemistry, and nuclear chemistry. Laboratory work consists of electrode phenomena, spectrophotometric measurements, chemical catalysis, and radiochemistry. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-4 |
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CHEM 470 | Inorganic Chemistry | 3 |
Prerequisite: Prerequisite: CHEM 410 Inorganic Chemistry (Chemistry 470) is a one semester course that presents contemporary theories about molecular structure and reactivity and applies them to inorganic materials, catalysis, nanotechnology, and bioinorganic chemistry. The course extends the application of fundamental chemical theories of structure, bonding, thermodynamics, and kinetics that are developed in prerequisite courses (Organic Chemistry I and II (Chem 210/250), Physical chemistry I and II (Chem 410/450) to current problems in the chemistry of main group and transition elements. Group theory will be introduced to elucidate the symmetry, structure, bonding, and spectroscopy of the d-block elements. The course prepares students for advanced study in chemistry, biology, or biochemistry and provides an introduction to topics of interest for students preparing for careers in chemical industry. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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Total: 37 Credits | ||
Biology | Credits: | |
BIOL 340 | Biochemistry | 4 |
Prerequisite: Prerequisite: BIOL 110 and CHEM 210. Life Sciences Osteopathy majors: Prerequisite BIOL 150 and co-requisite CHEM 210. A practical introduction to the fundamentals of the structure and properties of the biomolecules in close context with their metabolism. Major emphasis is placed on the dynamic nature of biochemistry and the interrelationships of the various metabolic pathways that make up the totality of life. Work in the laboratory illustrates the more common biochemistry techniques and principles encountered in the lecture. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-4 |
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Total: 4 Credits | ||
Mathematics Requirement | Credits: | |
MATH 170 | Calculus I | 4 |
Prerequisite: Prerequisite: MATH 141 or Math Placement Exam. Study of lines and circles. Functions, limits, derivatives of algebraic functions, introduction to derivatives of trigonometric functions. Application of derivatives to physics problems, related rates, maximum-minimum word problems and curve sketching. Introduction to indefinite integrals. The conic sections. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 5-0-4 |
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MATH 180 | Calculus II | 4 |
Prerequisite: Prerequisite: MATH 170. Students in BS Electrical and Computer Engineering and BS Mechanical Engineering must earn a grade of C or better in MATH 170. Riemann sums, the definite integral, the fundamental theorem of the calculus. Area, volumes of solids of revolution, arc length, work. Exponential and logarithmic functions. Inverse trigonometric functions. Formal integration techniques. L'Hopital's rule, improper integrals. Polar coordinates. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 5-0-4 |
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Total: 8 Credits | ||
Mathematics Elective (choose one) | Credits: | |
MATH 235 | Applied Statistics | 3 |
Prerequisite: Prerequisite: MATH 150 or MATH 151 or MATH 170 An introduction to modern inferential statistics with appropriate applications to telecommunications and related fields. Major topics covered are descriptive statistics, introduction to probability, binomial distribution, normal distribution, sampling and the Central Limit Theorem, estimation, hypothesis testing, regression and correlation, chi-square analysis and analysis of variance. The primary focus in this course will be on application of these statistical ideas and methods. Students will be required to conduct individual statistical projects involving the collection, organization and analysis of data. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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MATH 310 | Linear Algebra | 3 |
Prerequisite: Prerequisite: MATH 180 Matrices and systems of linear equations, vector spaces, change of base matrices, linear transformations, determinants, eigen-values and eigen-vectors, canonical forms. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 |
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Total: 3 Credits | ||
Physics | Credits: | |
PHYS 170 | General Physics I | 4 |
Prerequisite: Co-requisite: MATH 170 A basic course covering vectors, Newton's laws of motion, particle kinematics and dynamics, work, energy, momentum, and rotational motion. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 4-2-4 |
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Please view all course descriptions: http://www.nyit.edu/courses | ||
PHYS 175 | General Physics for Pre-Med I | 5 |
Prerequisite: Co-requisite: MATH 170 A basic course in physics for the student in the Combined Baccalaureate/Osteopathic Physician Program. Covers vectors, forces and torques, dynamics, energy momentum, fluids, gasses, liquids, solids, heat and thermodynamics. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 5-2-5 |
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PHYS 180 | General Physics II | 4 |
Prerequisite: Prerequisite: PHYS 170. Co-requisite: MATH 180. Students in BS Electrical and Computer Engineering and BS Mechanical Engineering must earn a grade of C or better in PHYS 170. A continuation of PHYS 170. Topics include fluids, wave motion, electric fields and electric potential, DC circuits, magnetic fields, capacitance and inductance, AC circuits, and electromagnetic waves. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 4-2-4 |
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Please view all course descriptions: http://www.nyit.edu/courses | ||
PHYS 185 | General Physics for Pre-Med II | 5 |
Prerequisite: Prerequisite: PHYS 175 A continuation of PHYS 175. Includes waves, sound, light, optics, electricity, current, magnetism, instrumentation, atoms and nuclei. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 5-2-5 |
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Total: 8–10 Credits | ||
Project Lab or Research (choose one) | Credits: | |
CHEM 48X | Research Project Lab choice | 3 |
Please view all course descriptions: http://www.nyit.edu/courses | ||
CHEM 493 | Independent Research III | 3 |
Prerequisite: Prerequisite CHEM 395 An advanced biomedical project under the supervision of a faculty member. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-3 |
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CHEM 494 | Independent Research IV | 4 |
Prerequisite: Prerequisite: CHEM 395 An advanced biomedical project under the supervision of a faculty member. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-4 |
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Total: 3–4 Credits | ||
General Electives | Credits: | |
Consult with advisor on any electives choices. | 12 | |
Please view all course descriptions: http://www.nyit.edu/courses | ||
Science Electives | Credits: | |
Consult with advisor on any electives choices. | 12–15 | |
Please view all course descriptions: http://www.nyit.edu/courses | ||
Total Required Credits = 122–125 |