course syllabus - ncat · web viewcourse syllabus course information course number/section phys 405...
Post on 10-Jun-2018
238 Views
Preview:
TRANSCRIPT
NORTH CAROLINA AGRICULTURAL AND TECHNICAL STATE UNIVERSITY
Course Syllabus
Course InformationCourse Number/Section PHYS 405Course Title Mathematical Physics
Term Spring 2015Days & Times 2-3:15 PM
Marteena 310
Professor Contact InformationProfessor Solomon BililignOffice Phone 336-285-2328Other Phone 336-285-3259 (Lab)Email Adresse Bililign@ncat.eduOffice Location Marteena 306/Gibbs 302Office Hours W 2-5 PMOther Information You can make appointments if you cannot make it during the
office hours
Course Pre-requisites, Co-requisites, and/or Other RestrictionsMath 231
Course Description
This is a course in the applications of mathematics to solutions of physical problems. It covers selected topics in vector analysis, differential equations, special functions, calculus of variations, eigenvalues and eigenfunctions, and matrices, complex variables, linear algebra. Prerequisite: MATH 231.
NOTE: The course will cover some mathematical techniques commonly used in physics. This is not a course in pure mathematics, but rather on the application of mathematics to problems of interest in the physical sciences. Knowledge of physics at the level of Phys 241-Phys 242 is required.
At the conclusion of the course a student must be able to apply basic mathematical concepts in solving problems in junior and senior electrodynamics, classical mechanics and quantum mechanics and other upper level physics courses.
Objective 1: Effectively use information technology to find, interpret, evaluate, and use information discerningly.
Outcome: Students will demonstrate the ability to use information technology tools to conduct literature survey, and do researchObjective 3: Effectively employs critical thinking skills in written and oral communication.Outcome: Students will demonstrate the ability to employ critical thinking in solving problems which are very complicated and mathematically challengingObjective 4: Effectively relate ideas and concepts, as well as modes of inquiry, across disciplinesOutcome: Students will demonstrate the ability to relate ideas and concepts from physics to chemistry, atmospheric sciences, geosciences and materials science and engineering Objective 5 : Use analytical thinking skills to evaluate information critically.Outcome: Students will demonstrate the ability to use analytical thinking skills to evaluate the content of the course as it applies to real life problems.Objective 6: Apply multiple modes of inquiry, including quantitative and qualitative analysis, to formulate, describe, evaluate, and solve problemsOutcome: Students will demonstrate the ability to apply multiple modes of inquiry, including quantitative analysis, to formulate, describe, evaluate, and solve problems.Objective 7: Apply scientific reasoning skills to model natural, physical, social, and aesthetic phenomena using multiple modes of inquiry:Outcome: Students will develop skills to use the different mathematical techniques to solve problems in physical sciences- physics, chemistry engineering and geosciences.
Required Textbooks and MaterialsRequired TextsMathematical Methods in the Physical SciencesMary L. Boas, Third Edition
Suggested course reference booksSchaum's Outlines series on Matrix Algebra, Vector Analysis, Linear Algebra, Complex Variables, Ordinary and Partial Differential Equations
Assignments & Academic CalendarTopics, Reading and problems to work on AssignmentsLecture Date Topic Book section
(BOAS)1 1/13/15 Complex Variables: Complex plane,
Complex AlgebraChapter 2, section 1-5
2 1/15/15 Complex Variables: Elementary functions of complex numbers, powers, roots, exponential and trigonometric functions
Chapter2, section 8,9,10,11
3 1/20/15 Complex Variables: Logarithms, hyperbolic functions, Applications in mechanics, circuits, optics,
Chapter 2, sections 12-16
4 1/22/15 Vector Analysis: Vector dot, cross and triple products with applications in mechanics, electrodynamics
Chapter 3 section 4, Chapter 6 sections 1,2,3
5 1/27/15 Vector Analysis: Differentiation of vectors, fields and directional derivative: Gradient; Curl and divergence of a vector: Applications in electrodynamics and mechanics
Chapter 6,sections 4,5,6,7
Course Syllabus Page 2
2
1/29/15 Exam 1- Complex Variables6 2/3/15 Vector Analysis: Line integrals with
applications in mechanics and electrodynamics
Chapter 6, section 8
7 2/5/15 Vector Analysis: Divergence and the divergence theorem with applications in electrodynamics
Chapter 6, section 10
8 2/10/15 Vector Analysis: Curl and stokes theorem, conservative fields- applications in Mechanics and electrodynamics
Chapter 6, section 11
9 2/17/15 Linear Algebra: Matrices, Determinants, Cramer’s Rules; matrix operations
Chapter 3, sections 1-3,6
10 2/19/15 Linear Algebra: Linear Operators, Linear dependence and linear independence- applications in quantum mechanics
Chapter 3, sections 7,8
11 2/24/15 Linear Algebra: Special matrices, Linear Vector Spaces- Applications in quantum mechanics
Chapter 3, section 9, 10
2/26/15 Exam 2- Vector Analysis12 3/10/15 Linear Algebra: Eigen values and Eigen
Vectors, DiagonalizationChapter 3 section 11 and 12
13 3/12/15 Linear Algebra: Applications of matrix diagonalization in mechanics (moment of inertia, coupled vibrations, quantum mechanics
Chapter 3, section 12
14 3/17/15 ODE: Separable equations, Linear First order equations,
Chapter 8, sections 1-3
15 3/19/15 ODE: second order linear equations with constant coefficients equal to zero
Chapter 8, section 5
16 3/24/15 ODE: second order linear differential equations with constant coefficients and equal to non-zero
Chapter 8, section 6
17 3/26/15 ODE: Applications in mechanics, quantum mechanics, circuits, electrodynamics
3/31/15 Exam 3- Linear Algebra and ODE18 4/2/15 Partial Differentiation: Total differentials Chapter 4, section 1-
319 4/7/15 Partial Differentiation: Approximation
using differentials, chain rule or differentiating a function,
Chapter 4, sections 4 and 5
20 4/9/15 Partial Differentiation: Change of variables Applications in mechanics, quantum mechanics, statistical physics and thermodynamics
Chapter 4 section 11
21 4/14/15 PDE: Laplace and Poisson equations-applications: Heat transfer, Electric potentials in Cartesian coordinates
Chapter 13, section 1 and 2
22 4/16/15 PDE: Diffusion or heat flow equation, Schrodinger equation
Chapter 13, section 3
23 4/21/15 Probability and Statistics: Sample space, Chapter 15, sections1-
Course Syllabus Page 3
3
probability theorems, 324 4/23/15 Probability and Statistics: Methods of
counting, Random variables,Chapter 15, sections 4 and 5
25 4/28/15 Probability and Statistics: Distributions, Binominal, Normal and Gaussians, Poisson
Chapter 15, sections 6,7,8 and 9
26 4/30/15 Probability and Statistics: Error Analysis Chapter 15, section 10Final Exam: Comprehensive
Grading PolicyHomework: Assigned homework problems for each day are listed and collected at the next
class following the assignment. You are urged to try to solve the problems before we solve them in class. Homework carries a major weight in the evaluation. Solutions will be provided after the homework is collected. No homework is accepted after the solutions are distributed. Last day to submit home works is 5PM of the Friday of the week they are assigned.
You can work collaboratively and discuss homework with your peers; however the material you turn in should be your own work. I will file a report of Academic Integrity Violations for any student who turns in homework that is copied from another source or cheats in any other manner. The student will get a zero for the homework.
Quizzes: Daily or once a week, you will have a quiz based on the material to be covered. This quiz could be at the beginning of the class or towards the end. You are expected to read the section for the class before coming to class.
Exams: There will be three exams and a final. The exams schedules are announced in the outline
Grading: Home works + quizzes 50% Three Exams 10% each 30%
Final Exam 20%
Grade Scale
Course Syllabus Page 4
4
Course PoliciesMake-up examsMake up exams are given only with valid excusesExtra CreditAttendance of all departmental seminars is a requirement and students will earn extra credit.Late WorkNo late work is acceptedClass AttendanceA student is not allowed to miss a class without reasonable excuse and justification. Classroom CitizenshipCivility and good conduct is expected. Coming on time and turning off all cell phones, and waiting until the class ends are expected of each student.Enrollment in the class means that you agree to abide by the expectations of North Carolina A&T State University about academic integrity. For specific information refer to your Student Handbook. Also, refer to the most current Undergraduate Bulletin for the academic dishonesty policy. The North Carolina A&T State University’s Academic Honor Code will be enforced.
Your responsibilities in the area of honor include, but are not limited to, avoidance of cheating, plagiarism and improper or illegal use of technology. Your presentations, assignments, and quizzes are expected to be your own work. Any questions about these should be directed to the professor. It is permissible to request assistance from a librarian when doing database research as long as the selection and organization of the research for the presentation is in your own work.
Technical Support
If you experience any problems with your A&T account you may call Aggie Tech Support (formerly Help Desk) at 336.334.7195.
Field Trip Policies / Off-Campus Instruction and Course Activities
Student Affairs website http://www.ncat.edu/~staffair/; Student Handbook: http://www.ncat.edu/~deanofst/Handbook.htm; Student Travel Procedures and Student Travel Activity Waiver http://businessfinance.ncat.edu/policies%20and%20procedures%20index.htm
Off-campus, out-of-state, and foreign instruction and activities are subject to state law and University policies and procedures regarding travel and risk-related activities. Information regarding these rules and regulations may be found at the website address: Student Travel Procedures and Student Travel Activity Waiver http://businessfinance.ncat.edu/policies%20and%20procedures%20index.htm. Additional information is available from the office of Student Affairs, please check the website at http://www.ncat.edu/~staffair/. Below is a description of any travel and/or risk-related activity associated with this course.
Other Policies (e.g., copyright guidelines, confidentiality, etc.)Student Handbook: http://www.ncat.edu/~deanofst/Handbook.htm
Family Educational Rights and Privacy Act http://www.ncat.edu/~registra/ferpa_info/index.htm
Course Syllabus Page 5
5
Student Conduct & DisciplineNorth Carolina A&T State University has rules and regulations that govern student conduct and discipline meant to ensure the orderly and efficient conduct of the educational enterprise. It is the responsibility of each student to be knowledgeable about these rules and regulations. Please consult the undergraduate http://www.ncat.edu/~acdaffrs/Bulletin_2008-2010/2008-2010_Undergraduate_Bulletin.pdfand graduate bulletins: 2008-2010 Graduate Catalog.doc http://www.ncat.edu/~gradsch/cstudents.html and student handbook http://www.ncat.edu/~deanofst/Handbook.htm for detailed information about specific policies such as academic dishonesty, cell phones, change of grade, disability services, disruptive behavior, general class attendance, grade appeal, incomplete grades, make up work, student grievance procedures, withdrawal, etc.
Compliance with the Americans with Disabilities Act
North Carolina A&T State University is committed to complying with the Americans with Disabilities Act of 1990 and Section 504 of the Rehabilitation Act of 1973 by providing equal access to the programs, services and benefits to qualified students with disabilities. All reasonable efforts will be made to accommodate the needs of students with documented disabilities. I f you have a disability that requires an accommodation during the semester, please REGISTER with the Office of Veterans and Disability Service (OVDSS) located on campus in Murphy Hall (334-7765). Make sure that you notify OVDSS of any disability accommodation requests prior to the start of classes or within the first two weeks of classes.
These descriptions and timelines are subject to change at the discretion of the Professor.
01.27.09 – Submitted to Faculty Senate by LEW
Course Syllabus Page 6
6
top related