Physics Major, with Teacher Certification in Physical Science (Preschool-Grade 12) (B.S.) - Undergraduate - 2011 University Catalog
You are viewing the 2011 University Catalog. Please see the newest version of the University Catalog for the most current version of this program's requirements.
Students who wish to pursue P-12 teacher certification in Physical Science must apply to and be admitted to the Teacher Education Program. Please visit the Teacher Education Program Web site for the required professional sequence of courses and other important Program requirements, guidelines, and procedures. Students are strongly advised to review the Teacher Education Program Handbook. Students majoring in physics have two teacher certification options to choose from – Physical Science or Physics – and should consult with an advisor to determine which certification program they wish to complete. Courses specific to the Physical Science teacher certification program are listed below.
Teacher Education Sequence (42 s.h.)
To be eligible for admission to the Teacher Education Program, a student must have a minimum 2.50 GPA in physics major and collateral courses and have successfully completed 12 semester hours or more of physics major courses. In addition, in order to remain in the Teacher Education Program students must maintain a 2.75 overall GPA and 2.5 GPA in the major.
A minimum of 120 semester hours of coursework is required for the
baccalaureate degree with a minimum 2.0 overall GPA, and a minimum 2.0
major GPA. However, more than 120 semester hours may be required
depending upon the major field of study. In addition to the major
requirement outlined below, all university students must fulfill the
set of General Education requirements applicable to their degree (for
further information, see General Education Requirements).
Complete 78 semester hours including the following 3 requirement(s):
PHYSICS REQUIRED COURSES
Complete the following 6 courses for 24 semester hours:
PHYS 191 University Physics I 4 PHYS 192 University Physics II 4 PHYS 210 Mechanics 4 PHYS 240 Electricity and Magnetism 4 PHYS 350 Optics 4 PHYS 460 Modern Physics 4
PHYSICS/PHYSICAL SCI ELECTIVE COURSES
Complete at least 14 semester hours from the following:
PHYS 242 Circuit Theory 3 PHYS 245 Electronics and Digital Circuits 3 PHYS 247 Microprocessors and Their Applications 3 PHYS 280 Astronomy 4 PHYS 310 Advanced Mechanics 3 PHYS 320 Thermodynamics 3 PHYS 340 Advanced Electricity and Magnetism 3 PHYS 377 Mathematical Physics 3 PHYS 380 Observational Astronomy 4 PHYS 430 Computer Simulations of Physical Systems 3 PHYS 462 Nuclear Physics 4 PHYS 464 Quantum Mechanics 3 PHYS 468 Fluid Mechanics 3 PHYS 470 Solid State Physics 3 PHYS 480 Astrophysics 3 PHYS 490 Literature Research in Physics 2 PHYS 495 Laboratory Research in Physics 1-4
PHYSICS/PHYSICAL SCI COLLATERAL COURSES
Complete the following 2 requirements:
Complete the following 11 courses:
CHEM 120 General Chemistry I 4 CHEM 121 General Chemistry II 4 CHEM 230 Organic Chemistry I 3 CHEM 231 Organic Chemistry II 3 CHEM 232 Experimental Organic Chemistry I 2 CHEM 233 Experimental Organic Chemistry II 2 CMPT 183 Foundations of Computer Science I 3 MATH 122 Calculus I 4 MATH 221 Calculus II 4 MATH 222 Calculus III 4 MATH 420 Ordinary Differential Equations 4
Complete 1 course from the following:
CHEM 310 Analytical Chemistry 5 CHEM 370 Biochemistry I 3
CHEM120: General Chemistry I
Introductory lecture and laboratory course for science majors, prerequisite for all advanced chemistry courses. Introduction to atomic and molecular structure, bonding, stoichiometry, states of matter, solutions, and selected topics in descriptive inorganic chemistry. Laboratory stresses techniques and data treatment and their use in examining chemical systems. (3 hours lecture, 3 hours lab.) 4 sh.
Prerequisites: One year of high school chemistry.
CHEM121: General Chemistry II
Introductory lecture and laboratory course for science majors, prerequisite for all advanced chemistry courses. Introduction to thermochemistry, kinetics; general acid base, precipitation, redox equilibria, electrochemistry and selected topics in descriptive inorganic chemistry. Laboratory stresses techniques and data treatment and their use in examining chemical systems. (3 hours lecture, 3 hours lab.) 4 sh.
Prerequisites: CHEM 120 with a grade of C- or better.
CHEM230: Organic Chemistry I
Structure and bonding in organic compounds: nomenclature, reactions, properties, and aromatic compounds: stereochemistry; structure analysis by IR, NMR, UV, and MS; introduction to molecular orbital theory. (3 hours lecture.) 3 sh.
Prerequisites: CHEM 121 with a grade of C- or better.
CHEM231: Organic Chemistry II
Nomenclature, reactions, properties, and synthesis of ethers, epoxides, alcohols, amines, and carbonyl compounds; carbohydrates; amino acids, peptides and proteins; pericyclic reactions; synthetic polymers. (3 hours lecture.) 3 sh.
Prerequisites: CHEM 230 with a grade of C- or better.
CHEM232: Experimental Organic Chemistry I
A laboratory course to be taken concurrently with CHEM 230. Basic techniques for the separation, analysis and synthesis of organic compounds: recrystallization, distillation, extraction, GC, HPLC, TLC, GC/MS, IR, H/C13- NMR, chemical safety methods and regulations. (4 hours lab.) 2 sh.
Prerequisites: CHEM 230 is a prerequisite or corequisite.
CHEM233: Experimental Organic Chemistry II
A laboratory course to be taken concurrently with CHEM 231 and after completion of CHEM 232. Basic techniques for organic synthesis, mechanistic studies, separation and analysis, and chemical safety: multistep syntheses, spectral data-base searching, phase-transfer catalysis, anhydrous procedures, analysis of unknowns by wet-chemical and spectral methods. (4 hours lab.) 2 sh.
Prerequisites: CHEM 231 and 232 with a grade of C- or better. CHEM 231 may be taken as a corequisite.
CHEM310: Analytical Chemistry
Introduction to concepts of classical analytical chemistry including evaluation of data and apparatus, theory and application of volumetric and gravimetric methods and redox equilibrium, and introduction to electrical methods. (3 hours lecture, 4 hours lab.) 5 sh.
Prerequisites: CHEM 231 and CHEM 232 with a grade of C- or better.
CHEM370: Biochemistry I
Organization of the living cell; structure, function and chemistry of proteins, carbohydrates and lipids; bioenergetics and oxidation. (3 hours lecture.) 3 sh.
Prerequisites: CHEM 231 with a grade of C- or better.
CMPT183: Foundations of Computer Science I
Basic theory of digital computers. Syntax and semantics of a programming language. Algorithms: logic, design, testing and documentation. (2 hours lecture, 2 hours lab.) 3 sh.
Prerequisites: MATH 100, MATH 112, MATH 114, MATH 116, MATH 122 or MATH 221.
MATH122: Calculus I
Limits, continuity; derivative and differentiation; applications of the derivative, maxima, minima, and extreme considerations; antiderivatives; Riemann integral. (4 hours lecture.) 4 sh.
Prerequisites: MATH 111 or MATH 112 or placement through the Montclair State University Placement Test (MSUPT) or a satisfactory score on department's Calculus Readiness Test. (Students who did not satisfy the course prerequisite at MSU and students who received a grade of D-, D, or D+ in the prerequisite course taken at MSU are required to demonstrate competency on the department's Calculus Readiness Test.)
MATH221: Calculus II
Riemann integral applications, transcendental functions, techniques of integration, improper integrals, L'Hospital's rule, infinite series. (4 hours lecture.) 4 sh.
Prerequisites: MATH 122.
MATH222: Calculus III
Vector algebra; partial differentiation, and extreme considerations; polar, cylindrical, and spherical coordinates, multiple integration; introduction to line integrals. (4 hours lecture.) 4 sh.
Prerequisites: MATH 221.
MATH420: Ordinary Differential Equations
A course in the theory and applications of ordinary differential equations which emphasizes qualitative aspects of the subject. Topics include analytic and numerical solution techniques for linear and nonlinear systems, graphical analysis, existence-uniqueness theory, bifurcation analysis, and advanced topics. Prerequisite: MATH 335. (4 hours lecture.) 4 sh.
Prerequisites: MATH 335.
PHYS191: University Physics I
This one-semester calculus-based course including laboratory is a study of the principles of physics and some applications to society's problems. Topics covered include mechanics, thermodynamics, fluids, and harmonic motion. (3 hours lecture, 2 hours lab.) 4 sh.
Prerequisites: MATH 122 is prerequisite or co-requisite.
PHYS192: University Physics II
Calculus-based course. Study of some principles of physics and some applications to society's problems. Topics include: wave motion, sound and noise pollution, optics, electricity, lasers, nuclear theory, radiation, nuclear reactors, waste disposal. (3 hours lecture, 2 hours lab.) 4 sh.
Prerequisites: MATH 221 is prerequisite or corequisite.
Classical mechanics: Kinematics, Newton's laws, impulse and momentum, statics, work and energy, oscillations, general motion, central force motion, non-inertial frames, system of particles, methods of handling data. (3 hours lecture, 2 hours lab.) 4 sh.
Prerequisites: PHYS 191.
PHYS240: Electricity and Magnetism
Basic principles of electromagnetism: Coulomb's law and general techniques in electrostatics, currents and their associated magnetic field, electromagnetic induction and magnetic properties of materials. Foundations of Maxwell's equations (without detailed solutions). Laboratory experiments. (3 hours lecture, 2 hours lab.) 4 sh.
Prerequisites: PHYS 192. MATH 222 is a prerequisite or corequisite.
PHYS242: Circuit Theory
Introduces basic methods in circuit analysis and design. Topics include linear electric circuits and their response, circuit theorems, filters, Fourier analysis of different inputs and outputs, and transmission lines. (2 hours lecture, 2 hours lab.) 3 sh.
Prerequisites: PHYS 192 or PHYS 194 and MATH 221.
PHYS245: Electronics and Digital Circuits
An introduction to the principles of amplifiers, waveform generators, and digital circuits, with emphasis on the use of commonly available integrated circuit packages. (2 hours lecture, 2 hours lab.) 3 sh.
Prerequisites: PHYS 192 or 194.
PHYS247: Microprocessors and Their Applications
One semester course providing an introduction to the principles, operations and applications of microprocessors including experiment control and data manipulation. (2 hours lecture, 2 hours lab.) 3 sh.
Prerequisites: PHYS 192 or 194.
Application of physical laws to the earth as a planet; nature of the other planets; orbital motion and space flight; origin of the solar system; the birth, life and death of a star galactic structure; and cosmology. Meets the University Writing Requirement for majors in Physics. (3 hours lecture, 2 hours lab.) 4 sh.
Prerequisites: PHYS 191, 192 or PHYS 193, 194.
PHYS310: Advanced Mechanics
Classical mechanics; transformations, oscillators, generalized motion; Lagrange's equations; Hamilton's equation; small oscillations; wave propagation. (Offered alternate years.) Meets the University Writing Requirement for majors in Physics. (3 hours lecture.) 3 sh.
Prerequisites: MATH 222, and 420, and PHYS 210.
Thermodynamic systems; laws of thermodynamics; entropy; kinetic theory; transport processes; statistical thermodynamics. (Offered alternate years.) (3 hours lecture.) 3 sh.
Prerequisites: MATH 222 and PHYS 210.
PHYS340: Advanced Electricity and Magnetism
Dielectric materials; image calculations; Laplace's equation; magnetic materials and flux; A.C. networks; nonsinusoidal AC; transients and pulses; electromagnetic radiation. (Offered alternate years.) (3 hours lecture.) 3 sh.
Prerequisites: MATH 420.
Propagation of light, optical components, instruments and photometry. Interference, diffraction and polarization with elements of spectroscopy. (Offered alternate years.) Meets the University Writing Requirement for majors in Physics. (3 hours lecture, 2 hours lab.) 4 sh.
Prerequisites: PHYS 240.
PHYS377: Mathematical Physics
Vector analysis, complex variables, ordinary and partial differential equations, matrices. (Not offered every year.) (3 hours lecture.) 3 sh.
Prerequisites: 2 years of physics and MATH 222.
PHYS380: Observational Astronomy
Observational techniques for the Moon, planets, satellites of other planets, asteroids, comets, stars, star clusters, and galaxies. (3 hours lecture, 2 hours lab.) 4 sh.
Prerequisites: PHYS 191, PHYS 192 or PHYS 193, PHYS 194.
PHYS430: Computer Simulations of Physical Systems
This course applies computer techniques and numerical analysis to model physical systems. Simulations and calculations will be done of falling bodies, gravitational orbits, scattering, oscillations, electrical circuits, molecular dynamics, Monte Carlo techniques, chaos, and quantum systems. (3 hours lecture.) 3 sh.
Prerequisites: MATH 221, PHYS 191, PHYS 192, and CMPT 183.
PHYS460: Modern Physics
Special relativity, kinetic theory of matter; quantization of electricity, light and energy; nuclear atom; elementary quantum mechanics and topics on solid state. (Offered alternate years.) (3 hours lecture, 2 hours lab.) 4 sh.
Prerequisites: PHYS 210, 240.
PHYS462: Nuclear Physics
Nuclear radiation; radioactive decay; detectors; nuclear spectroscopy and reactions; theories and models; fission, fusion, reactors; and application of radioisotopes. (Offered alternate years.) Meets the University Writing Requirement for majors in Physics. (3 hours lecture, 2 hours lab.) 4 sh.
Prerequisites: PHYS 210, 240.
PHYS464: Quantum Mechanics
Shroedinger's wave equation, its application and interpretation; Pauli exclusion principle and spectra. (Offered alternate years.) (3 hours lecture.) 3 sh.
Prerequisites: PHYS 460.
PHYS468: Fluid Mechanics
Mechanics of continuous media, liquids and gases; stress, viscosity, Navier-Stokes and Euler Equations, exact solutions, potential flow, circulation and vorticity, dimensional analysis and asymptotic models, boundary layers, stability theory and applications to industrial and environmental problems. Cross listed with MATH 468. (3 hours lecture.) 3 sh.
Prerequisites: PHYS 210 or MATH 222.
PHYS470: Solid State Physics
Properties of solid state matter are developed from the quantum mechanics of atoms and molecules. (Not offered every year.) (3 hours lecture.) 3 sh.
Prerequisites: PHYS 460.
The laws of physics applied to planetary structure, stars and their evolution in time, the interstellar medium, galaxies, and large-scale structure of the universe. (3 hours lecture.) 3 sh.
Prerequisites: PHYS 191, 192 or PHYS 193, 194; PHYS 280; MATH 221. Prerequisite or corequisite: STAT 401.
PHYS490: Literature Research in Physics
Student considers topics in physics and gains facility in literature research techniques: topics in pure physics or related to physics education. Students intending to enroll in laboratory research in physics should use PHYS 490 to provide the literature research related to his/her laboratory problem. (Not offered every year.) (2 hours lecture.) 2 sh.
Prerequisites: At least 16 credit hours of physics beyond PHYS 192.
PHYS495: Laboratory Research in Physics
Solution of a laboratory problem research in pure physics or in physics education. Written report required. (Not offered every year.) () 1 - 4 sh.
Prerequisites: At least 16 credit hours of physics beyond PHYS 192.