Academic Calendar 2004 (new)» UNDERGRADUATE COURSE INFORMATION» Applied Mathematics
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Applied Mathematics

Applied Mathematics Courses
 
025a/b026213b261b275276277
290a291b301a/b303a/b310F/G311a/b315a/b
320b325a/b351a/b353a356b375a/b376a/b
380402a/b415a/b420b422b425a/b432a/b
442a/b453a/b455a/b456b465F/G466a/b475a/b
476a/b483a/b484a/b491Z

Calculus 050a/b, 051a/b, 081a/b, 250a/b, 251a/b, 280a/b, and 281a/b are offered jointly by the Departments of Applied Mathematics and Mathematics.

Calculus 091a/b is offered by the Department of Applied Mathematics.

Differential Equations 215a is offered jointly by the Departments of Applied Mathematics and Mathematics.

Linear Algebra 040a/b is offered jointly by the Departments of Applied Mathematics and Mathematics.

Please refer to the CALCULUS (S)DIFFERENTIAL EQUATIONS (S), and LINEAR ALGEBRA (S) subjects for those course offerings.


Applied Mathematics 025a/b, Linear Algebra for Engineers
Description: Matrix operations, systems of linear equations, linear spaces and transformations, determinants, eigenvalues and eigenvectors, applications of interest to Engineers including diagonalization of matrices, quadratic forms, orthogonal transformations. For students in Engineering Science only.
Prerequisite(s): OAC Algebra and Geometry, or Grade 12U Geometry and Discrete Mathematics (MGA4U), or Mathematics 017a/b; and OAC Calculus, or Grade 12U Advanced Functions and Introductory Calculus (MCB4U), or Mathematics 012a/b.
3 lecture hours, 1 tutorial hour, 0.5 course.
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Applied Mathematics 026, Applied Mathematics for Engineers I
Description: The calculus of functions of one and more variables with emphasis on applications in Engineering Science. For students in Engineering Science only.
Antirequisite(s): Calculus 050a/b, Calculus 051a/b, Calculus 081a/b, Mathematics 030.
Prerequisite(s): OAC Algebra and Geometry, or Grade 12U Geometry and Discrete Mathematics (MGA4U), or Mathematics 017a/b; and OAC Calculus, or Grade 12U Advanced Functions and Introductory Calculus (MCB4U), or Mathematics 012a/b as prerequisites.
3 lecture hours, 1 tutorial hour, 1.0 course.
Applied Mathematics 026 is a suitable prerequisite for any course which lists Calculus 050a/b plus Calculus 051a/b.
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Applied Mathematics 213b, Linear Algebra II
Description: Vector space examples. Inner products, orthogonal sets including Legendre polynomials, trigonometric functions, wavelets. Projections, least squares, normal equations, Fourier approximations. Eigenvalue problems, diagonalization, defective matrices. Coupled difference and differential equations; applications such as predator-prey, business competition, coupled oscillators. Singular value decomposition, image approximations. Linear transformations, graphics.
Prerequisite(s): Applied Mathematics 026 or Calculus 051a/b or Calculus 081a/b and a minimum mark of 60% in Linear Algebra 040a/b or Applied Mathematics 025a/b or the former Applied Mathematics 214a/b or the former Applied Mathematics 212a.
3 lecture hours, 0.5 course.
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Applied Mathematics 261b, Numerical Analysis
Description: Introduction to numerical analysis; polynomial interpolation, numerical integration, matrix computations, linear systems, nonlinear equations and optimization, the initial value problem. Assignments using a computer and the software package, Matlab, are an important component of this course.
Antirequisite(s): The former Applied Mathematics 272a/b.
Prerequisite(s): A minimum mark of 55% in Linear Algebra 040a/b .
Corequisite(s): Calculus 250a/b, Calculus 280a/b, or Applied Mathematics 290a.
3 lecture hours, 1 laboratory hour, 0.5 course.
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Applied Mathematics 275, Applied Mathematical and Numerical Methods for Mechanical Engineering
Description: Topics include: Introduction to C; numerical differentiation and integration; numerical linear algebra; ordinary differential equations including higher order systems and numerical solutions; interpolation and approximation; multiple integrals and vector integral theorems.
Antirequisite(s): Applied Mathematics 276, Applied Mathematics 277, and the former Applied Mathematics 272a/b.
Prerequisite(s): Applied Mathematics 025a/b and Applied Mathematics 026.
3 lecture hours, 1.5 laboratory hours, 1.0 course.
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Applied Mathematics 276, Applied Mathematical Methods for Electrical and Software Engineering I
Description: Topics include: Introduction to MATLAB and numerical analysis; numerical linear algebra; ordinary differential equations including numerical solution and Laplace transforms; Fourier series and transforms; discrete transform; fast Fourier transform with application to signal processing.
Antirequisite(s): Applied Mathematics 275, 277, and the former Applied Mathematics 272a/b.
Prerequisite(s): Applied Mathematics 025a/b and 026.
Corequisite(s): Applied Mathematics 276:
3 lecture hours, 1.5 laboratory hours, 1.0 course.
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Applied Mathematics 277, Applied Mathematics for Engineering II
Description: This course is intended to be taken by Chemical and Civil Engineering students. Topics include ordinary differential equations, Laplace transforms, multiple integrals, introduction to partial differential equations, and Fourier Series.
Antirequisite(s): Applied Mathematics 275, Applied Mathematics 276, Calculus 250a/b plus Calculus 251a/b, Calculus 280a/b plus Calculus 281a/b, Applied Mathematics 290a plus Applied Mathematics 291b.
Prerequisite(s): Applied Mathematics 025a/b and Applied Mathematics 026.
3 lecture hours, 1.0 course.
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Applied Mathematics 290a, Mathematical Methods for Chemistry I
Description: Partial differentiation and functions of several variables, analytic geometry and vectors, multiple integrals, first and second order ordinary differential equations and power series solutions.
Antirequisite(s): Calculus 250a/b, Calculus 280a/b.
Prerequisite(s): Calculus 051a/b or Calculus 081a/b (minimum mark of 55%); or Mathematics 030 (minimum mark of 80%).
3 lecture hours, 0.5 course.
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Applied Mathematics 291b, Mathematical Methods for Chemistry II
Description: Matrix algebra, sets of equations, determinants, eigenvalues, coupled differential equations; Max-min problems, Lagrange multipliers, least squares; partial differential equations, separation of variables, Laplace, diffusion, wave equations; series and transforms, Fourier series, functions defined by integrals, Stirling's formula, Fourier and Laplace transforms.
Prerequisite(s): Applied Mathematics 290a.
3 lecture hours, 1 laboratory/tutorial hour, 0.5 course.
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Applied Mathematics 301a/b, Complex Variables with Applications
Description: Functions of a complex variable, analytic functions, integration in the complex plane, Taylor and Laurent series, analytic continuation, Cauchy's theorem, evaluation of integrals using residue theory, applications to Laplace transforms, conformal mapping and its applications.
Antirequisite(s): Mathematics 307b.
Prerequisite(s): Calculus 251a/b, Calculus 281a/b, or Applied Mathematics 291b.
3 lecture hours, 0.5 course.
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Applied Mathematics 303a/b, Nonlinear Ordinary Differential Equations and Chaos
Description: Existence and uniqueness of solutions, phase space, singular points, stability, periodic attractors, Poincaré-Bendixson theorem, examples from physics, biology and engineering, frequency (phase) locking, parametric resonance, Floquet theory, stability of periodic solutions, strange attractors and chaos, Lyapunov exponents, chaos in nature, fractals.
Prerequisite(s): Differential Equations 215a, Calculus 251a/b or Calculus 281a/b, and Linear Algebra 040a/b.
3 lecture hours, 0.5 course.
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Applied Mathematics 310F/G, Modelling and Simulation
Description: Basic principles of modelling and simulation, description and treatment of deterministic and random processes, computational methods and applications with emphasis on the use of computers. The course includes a major project.
Antirequisite(s): The former Applied Mathematics 310a/b.
Corequisite(s): Calculus 251a/b, Calculus 281a/b, or equivalent, and Applied Mathematics 261b or the former Applied Mathematics 272a/b.
3 lecture hours, 0.5 course.
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Applied Mathematics 311a/b, Mathematical Biology
Description: An introduction to mathematical biology. Case studies from neuroscience, immunology, medical imaging, cell biology, molecular evolution and ecology will give an overview of this diverse field, illustrating standard mathematical approaches such as compartmental analysis and evolutionary game theory.
Prerequisite(s): One of Calculus 250a/b, Calculus 280a/b, or Applied Mathematics 290a; plus one of Linear Algebra 040a/b, Applied Mathematics 025a/b, or Applied Mathematics 291b
3 lecture hours, 0.5 course.
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Applied Mathematics 315a/b, Partial Differential Equations I
Description: Boundary value problems for Laplace, heat, and wave equation; derivation of equations; separation of variables; Fourier series; Sturm-Liouville Theory; eigenfunction expansions; cylindrical and spherical problems; Legendre and Bessel functions; spherical harmonics; Fourier and Laplace transforms.
Prerequisite(s): Minimum mark of 60% in Linear Algebra 040a/b, Calculus 251a/b and Differential Equations 215a.
3 lecture hours, 0.5 course.
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Applied Mathematics 320b, Mathematics of Financial Options
Description: An introduction to modern financial mathematics using a differential equations approach. Stocks, bonds, forwards, futures, and options. Geometric Brownian Motion. No-arbitrage options pricing. The Black-Scholes equation and its solutions. American options and moving boundary problems.
Antirequisite(s): Statistical Sciences 420a/b
Prerequisite(s): Applied Mathematics 315a/b or Applied Mathematics 375a/b
3 lecture hours, 0.5 course.
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Applied Mathematics 325a/b, Optimization
Description: An introduction to linear programming, simplex method, duality theory and sensitivity analysis, formulating linear programming models, nonlinear optimization, unconstrained and constrained optimization, quadratic programming. Applications.
Antirequisite(s): Mathematics 236, Statistical Sciences 236, the former Actuarial Science 325a/b.
Prerequisite(s): Calculus 250a/b or Calculus 280a/b, Linear Algebra 040a/b.
3 lecture hours, 0.5 course.
May be offered in alternate years.
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Applied Mathematics 351a/b, Introduction to Continuum Mechanics
Description: Introduction to Continuum Mechanics. The concept of a continuum. Derivation of the fundamental equations describing a continuum. Application to fluids and solids.
Prerequisite(s): Linear Algebra 040a/b or equivalent, Calculus 251a/b or Calculus 281a/b.
3 lecture hours, 0.5 course.
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Applied Mathematics 353a, Advanced Classical Mechanics I
Description: D'Alembert's principle, Lagrange's equations, detailed treatment of variational calculus, Hamilton's principle, two-body problem, scattering, special relativity, rigid body motion.
Antirequisite(s): Physics 350b.
Prerequisite(s): Calculus 251a/b and Linear Algebra 040a/b.
3 lecture hours, 0.5 course.
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Applied Mathematics 356b, Quantum Mechanics II
Description: Quantum mechanical description of angular momentum; Stern-Gehrlach experiment and electron spin; addition of angular momenta; full separation of variables treatment of the hydrogen atom Schrodinger equation; time independent non-degenerate and degenerate perturbation theory; fermions, antisymmetry, and the helium atom; time-dependent perturbation theory, Fermi golden rule, and radiative transitions.
Antirequisite(s): Physics 352b.
Prerequisite(s): Physics 351a.
3 lecture hours, 0.5 course.
May be offered in alternate years.
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Applied Mathematics 375a/b, Applied Mathematics for Mechanical Engineers
Description: Topics include: Fourier series, integrals and transforms; boundary value problems in cartesian coordinates; separation of variables; Fourier and Laplace methods of solution.
Antirequisite(s): Applied Mathematics 376a/b.
Prerequisite(s): Applied Mathematics 275.
3 lecture hours, 0.5 course.
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Applied Mathematics 376a/b, Applied Mathematics for Electrical Engineers
Description: Topics include: Introduction to complex analysis; complex integration; vector calculus including integral theorems; boundary value problems in cartesian coordinates; separation of variables; Fourier series and transform methods of solution.
Antirequisite(s): Applied Mathematics 375a/b.
Prerequisite(s): Applied Mathematics 276.
3 lecture hours, 1 laboratory hour, 0.5 course.
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Applied Mathematics 380, Mathematical Methods for Scientists III
Description: A practical problem-solving approach, including symbolic methods using computer algebra software such as Maple; Laplace transforms, convolution, and applications to differential equations; Fourier series, orthogonal function expansions; partial differential equations, separation of variables, Fourier and Laplace transforms; discrete Fourier transforms, signal analysis.
Antirequisite(s): Applied Mathematics 277, Applied Mathematics 315a/b.
Prerequisite(s): Calculus 251a/b or Calculus 281a/b, and Differential Equations 215a
3 lecture hours, 1.0 course.
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Applied Mathematics 402a/b, Linear Operators for Physical Science
Description: Introduction to infinite dimensional linear spaces and their occurrence in applications; metric and Banach spaces: bounded operators; Volterra integral equation; introduction to the Lebesgue integral; Hilbert space, self-adjoint, unitary, compact and projection operators, spectral decomposition of self-adjoint operators; Fredholm integral equations; mathematical foundations of Quantum Mechanics.
Antirequisite(s): Mathematics 418a/b.
3 lecture hours, 0.5 course.
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Applied Mathematics 415a/b, Partial Differential Equations II
Description: Boundary value problems for Laplace and Helmholtz equations, initial value problems for heat and wave equations, in one to three dimensions; Green's functions in bounded and unbounded domains; Method of Images.
Antirequisite(s): The former Applied Mathematics 400.
Prerequisite(s): Applied Mathematics 315a/b.
3 lecture hours, 0.5 course.
Maybe offered in alternate years.
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Applied Mathematics 420b, Electromagnetic Theory II
Description: Static fields (Green's functions); time varying fields; Maxwell's equations, conservation laws; non-relativistic motion of particle in static, uniform external fields; Rutherford scattering; plane waves; simple radiating systems; fields of a moving charge; relativistic formulation.
Prerequisite(s): Physics 365b.
3 lecture hours, 0.5 course.
Maybe offered in alternate years.
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Applied Mathematics 422b, Classical Field Theory
Description: Hamilton's Principle; Lagrangian for continuous systems; relativistic theories of particles and fields, Green's functions; Lienard-Wiechert potential; motion of charges in electromagnetic fields; electromagnetic field tensor; Lorentz transformations of electromagnetic fields; action function of electromagnetic fields; Noether's theorem; gravitational field in relativistic mechanics; curvilinear co-ordinates; introduction to general relativity.
Prerequisite(s): Physics 365b.
3 lecture hours, 0.5 course.
Maybe offered in alternate years.
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Applied Mathematics 425a/b, Methods of Applied Mathematics
Description: Fourier, Laplace and Hankel transforms with applications to partial differential equations; integral equations; and signal processing and imaging; asymptotic methods with application to integrals and differential equations.
Antirequisite(s): The former Applied Mathematics 400.
Prerequisite(s): Applied Mathematics 315a/b.
Pre- or Corequisite(s): Applied Mathematics 301a.
3 lecture hours, 0.5 course.
Maybe offered in alternate years.
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Applied Mathematics 432a/b, Fluid Dynamics
Description: An introduction to ideal and viscous incompressible flows. Some exact and self-similar solutions of Navier Stokes equations, Boundary layer theory and Blasius solution.
Prerequisite(s): Applied Mathematics 351a or the former Applied Mathematics 352a/b.
3 lecture hours, 0.5 course.
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Applied Mathematics 442a/b, Compressible Fluid Dynamics
Description: Introduction to the theory of compressible fluid flow including steady plane flow, method of characteristics, hodograph equations, simple waves, shock waves, unsteady rectilinear flow. Linearized subsonic and supersonic flow.
Prerequisite(s): The former Applied Mathematics 352a/b.
3 lecture hours, 0.5 course.
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Applied Mathematics 453a/b, Advanced Classical Mechanics II
Description: Hamilton's equations, canonical transformations, symplectic space, Poisson brackets, integrability, Liouville's theorem, Hamilton-Jacobi theory, chaos, classical field theory.
Prerequisite(s): Applied Mathematics 353b or Physics 350b.
3 lecture hours, 0.5 course.
Maybe offered in alternate years.
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Applied Mathematics 455a/b, Introduction to Elementary Particles
Description: Phenomenology; conservation laws and invariance principles; analysis of reactions and decays; the identification of particles; the particle spectrum; unitary symmetry; quarks; models of strong interaction dynamics.
Prerequisite(s): Permission of the Department.
3 lecture hours, 0.5 course.
Maybe offered in alternate years.
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Applied Mathematics 456b, Quantum Mechanics III
Description: Scattering theory, partial wave analysis, and phase shifts; Dirac equation and the magnetic moment of the electron; many particle systems and fermi-gas applications such as atomic nuclei, white dwarfs, and neutron stars; further applications of quantum mechanics.
Antirequisite(s): Physics 461a.
Prerequisite(s): Physics 351a.
Corequisite(s): Applied Mathematics 356b or Physics 352b.
3 lecture hours, 0.5 course.
Maybe offered in alternate years.
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Applied Mathematics 465F/G, Introduction to Object Oriented Scientific Programming
Description: Basic introduction to C++, review of numerical methods applicable to problems in linear algebra and differential equations, introduction to the concept of object-oriented programming techniques, applications to scientific computation. Grade is based upon two projects and a presentation.
Antirequisite(s): The former Applied Mathematics 465a/b.
Prerequisite(s): Calculus 051a/b, Calculus 081a/b, or Applied Mathematics 026; and Applied Mathematics 261b, Applied Mathematics 275, or Applied Mathematics 276, or the former Applied Mathematics 272a/b.
3 lecture hours, 0.5 course.
Offered in alternate years with Applied Mathematics 475a/b
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Applied Mathematics 466a/b, Finite Element Methods
Description: Variational principles, methods of approximation, basis functions, convergence of approximations, solution of steady state problems, solution of time-dependent problems. Each student will be required to complete two major computational projects.
Prerequisite(s): Applied Mathematics 261b or the former Applied Mathematics 272a/b.
Corequisite(s): Applied Mathematics 315a/b or equivalent.
3 lecture hours, 0.5 course.
Offered in alternate years with Applied Mathematics 476a/b.
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Applied Mathematics 475a/b, Introduction to Applied Computer Algebra
Description: Strengths and limitations of computer algebra systems (CAS); complexity of exact computations versus possible instability of numerical computations; selecta from Groebner bases, resultants, fractional derivatives, Risch integration algorithm, special functions including the Lambert W function. The emphasis is on preparing the student to use CAS in mathematics, science, and engineering.
Prerequisite(s): Applied Mathematics 261b, Applied Mathematics 275, Applied Mathematics 276, or the former Applied Mathematics 272a/b, 372a/b.
3 lecture hours, 0.5 course.
Offered in alternate years with Applied Mathematics 465a/b
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Applied Mathematics 476a/b, Numerical Solutions of Partial Differential Equations
Description: Finite difference methods, stability analysis for time-dependent problems.
Prerequisite(s): Applied Mathematics 261b or the former Applied Mathematics 272a/b.
Pre- or Corequisite(s): Applied Mathematics 315a/b, or Applied Mathematics 375a/b, or Applied Mathematics 376a/b, or Applied Mathematics 380.
3 lecture hours, 0.5 course.
Offered in alternate years with Applied Mathematics 466a/b.
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Applied Mathematics 483a/b, Solid Mechanics I
Description: Review of analysis of stress and strain and equations of equilibrium. Theory of torsion.
Prerequisite(s): Applied Mathematics 351a.
3 lecture hours, 0.5 course.
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Applied Mathematics 484a/b, Solid Mechanics II
Description: Flexure of thin plates, vibrations, elastic wave propagation. Introduction to plastic flows and anisotropic elasticity.
Prerequisite(s): Applied Mathematics 483a/b.
3 lecture hours, 0.5 course.
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Applied Mathematics 491Z, Project
Description: The student will work on a project under faculty supervision. The project may involve an extension, or more detailed coverage, of material presented in other courses. Credit for the course will involve a written as well as oral presentation.
Antirequisite(s): The former Applied Mathematics 491y.
Prerequisite(s): Registration in the fourth year of a program in Applied Mathematics.
0.5 course.
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Academic Calendar 2004 (new)» UNDERGRADUATE COURSE INFORMATION» Applied Mathematics