All courses and course definitions of the Mathematics
department may be seen under the undergraduate catalogue and graduate catalogue
pages of Boğaziçi University. The links indicated below provide the most recent
information about new courses or changes in course titles, definitions or
credits as accepted by the university senate.
Please check:
http://www.boun.edu.tr/undergraduate/index_tur.html
http://www.boun.edu.tr/graduate/index_tur.html
| Courses Offered by Mathematics Department | ||
| Math 101 | Calculus I (Analiz I) | (4+2+0) 4 |
| Functions, limits,
continuity, differentiation and applications, integration, fundamental
theorem of calculus, techniques and applications of integration, improper
integrals and series, Taylor polynomials, power series, basic transcendental
functions. |
| Prerequisite: | None |
| Math 102 | Calculus II (Analiz II) | (4+2+0) 4 |
| Vector calculus,
functions of several variables, directional derivatives, gradient, Lagrange
multipliers, multiple integrals and applications, change of variables,
coordinate systems, line integrals, Green's theorem and its applications. |
| Prerequisite: | MATH 101 |
| Math 105 |
Introduction to Finite Mathematics (Sonlu Matematiğe Giriş) |
(3+2+0) 3 |
| Systems of linear
equations and inequalities, matrices, determinants, inverses, Gaussian
elimination, geometric approach to linear programming, basic combinatorics,
binomial theorem, finite probability theory, conditional probability, Bayes'
theorem, random variables, expected value, variance, decision theory. |
| Prerequisite: | None |
| Math 106 |
Introduction to Calculus for Social Sciences |
(3+2+0) 3 |
| Functions of one
variable, properties of quadratic, cubic, exponential and logarithmic
functions, compound interest and annuities, limits, continuity and
differentiation, applied maximum and minimum problems, basic integration
techniques, sequences and series. |
| Prerequisite: | None |
| Math 111 |
Introduction to Mathematical Structures(Matematiksel Yapılara Giriş) |
(4+2+0) 4 |
| Propositional logic,
quantification, methods of
proof, sets, relations, functions and operations, equivalence relations,
cardinality, introduction to algebraic structures. |
| Prerequisite: | None |
| Math 131 |
Calculus for Mathematics Students I (Matematik
Öğrencileri için Analiz I) |
(4+2+0) 4 |
| Fundamental properties
of real numbers, sequences and subsequences, Bolzano-Weierstrass theorem,
limits of functions, continuity, intermediate and extreme value theorems,
differentiation and its applications, mean value theorems. |
| Prerequisite: | None |
| Math 132 |
Calculus for Mathematics Students II (Matematik
Öğrencileri için Analiz II) |
(4+2+0) 4 |
| Riemann integration,
fundamental theorem of calculus, techniques and applications of integration,
improper integrals, basic transcendental functions, infinite series,
convergence tests, Taylor polynomials, power series. |
| Prerequisite: |
MATH
131 |
| Math 162 | Discrete Mathematics (Diskret Matematik) | (4+2+0) 4 |
| Introduction to basic
problems, sums and recurrences, elementary number theory, properties of
binomial coefficients, special numbers, discrete probability theory,
generating functions. |
| Prerequisite: | None |
| Math 201 | Matrix Theory (Matris Kuramı) | (4+2+0) 4 |
| Matrix algebra,
determinants, Gaussian elimination, Cramer's rule, inverses, systems of
linear equations, rank, eigenvalues and eigenvectors, introduction to linear
programming. |
| Prerequisite: | None |
| Math 202 | Differential equations (Diferansiyel Denklemler) | (4+2+0) 4 |
| First-order
differential equations, linear equations, homogeneous and non-homogeneous,
series solutions, the Laplace transform, systems of first-order linear
equations, boundary value problems, Fourier series. |
| Prerequisite: |
(MATH 131 and MATH 201) |
| Math 224 | Linear Algebra I (Lineer Cebir I) | (3+2+0) 3 |
| Vector spaces, linear
transformations, rank and nullity, change of basis, canonical forms,
Euclidean spaces, Gram-Schmidt orthogonalization process. |
| Prerequisite: | MATH 111 and MATH 201 |
| Math 231 |
Calculus for Mathematics Students III (Matematik Öğrencileri için Analiz
III) |
(4+2+0) 4 |
| Vector calculus,
functions of several variables, directional derivatives, gradient,
vector-valued functions, divergence and curl, Taylor's theorem, Lagrange
multipliers, multiple integrals, change of variables, line integrals,
Green's theorem. |
| Prerequisite: | MATH 132 |
| Math 232 |
Introduction to Complex Analysis (Karmaşık Analize Giriş) |
(3+2+0) 3 |
| The field of complex
numbers, the extended complex plane and its topological properties, series
of complex functions, M-test, power series, analytic functions, elementary
functions and their mapping properties. |
| Prerequisite: |
(
MATH 131 and MATH 111) |
| Math 321 | Algebra I (Cebir I) | (4+2+0) 4 |
| Introduction to group
theory, subgroups, Lagrange's theorem, factor groups, permutation groups,
group homomorphisms, isomorphism theorems, introduction to ring theory,
ideals, ring homomorphisms, divisibility, polynomial rings, field of
rational functions. |
| Prerequisite: |
MATH 111 and MATH 201 |
| Math 322 | Algebra II (Cebir II) | (4+2+0) 4 |
| Vector spaces over an
arbitrary field, linear independence and bases, linear transformations and
matrices, fields, field extensions, algebraic extensions, Kronecker's
theorem, finite fields. |
| Prerequisite: |
MATH 321 |
| Math 327 | Number Theory (Sayılar Teorisi) | (3+2+0) 3 |
| Divisibility theory,
Euclidean algorithm, congruences, solutions of polynomial congruences,
primitive roots, power residues, quadratic reciprocity law, arithmetical
functions, distribution of prime numbers, Pell's equation, quadratic forms,
some diophantine equations. |
| Prerequisite: |
MATH 111 or MATH 162 |
| Math 331 | Real Analysis I (Gerçel Analiz I) | (4+2+0) 4 |
| Metric spaces,
convergence, completeness, continuity, compactness, connectedness,
contraction mapping principle. |
| Prerequisite: | MATH 232 |
| Math 332 | Real Analysis II (Gerçel Analiz II) | (4+2+0) 4 |
| Sequences and series of
functions, Arzela-Ascoli theorem, Stone-Weierstrass theorem, Fourier series,
inverse and implicit function theorems, integration. |
| Prerequisite: |
(MATH 132 and MATH 331) |
| Math 333 | Fourier Series (Fourier Serileri) | (3+2+0) 3 |
| Topics from the theory
of integration, Fourier series, Dirichlet kernel and convergence tests,
orthogonal families, convergence in the mean, Parseval's equation,
Fejer and Poisson kernels, applications. |
| Prerequisite: | MATH 232 |
| Math 336 | Numerical Analysis (Nümerik Analiz) | (4+2+0) 4 |
| Solutions of nonlinear
equations, Newton's method, fixed points and functional iterations, LU
factorization, pivoting, norms, analysis of errors, orthogonal factorization
and least square problems, polynomial interpolation, spline interpolation,
numerical differentiation, Richardson extrapolation, numerical integration,
Gaussian quadratures, error analysis. |
| Prerequisite: |
MATH
201 |
| Math 342 |
Life
Insurance Mathematics (Hayat Sigortaları Matematiği)
|
(3+2+0) 3 |
| Introduction to the
theory of interest, survival distribution and life tables, life insurance
and life annuities, commutation functions, fully discrete and continuous
premiums, net premium reserves, expense factors, modified reserve methods,
nonforfeiture benefits and dividents. |
| Prerequisite: | None |
| Math 343 | Probability (Olasılıklar Hesabı) | (4+2+0) 4 |
| Sets and counting,
probability and relative frequency, conditional probability, Bayes theorem,
independence, discrete and continuous random variables, binomial, Poisson
and normal distributions, functions of random variables, law of large
numbers, generating functions, characteristic functions, moments, compound
distributions, central limit theorems, Markov chains and their limiting
probabilities. |
| Prerequisite: |
MATH
101 |
| Math 344 | Statistics (İstatistik) | (3+2+0) 3 |
| Methods of data
analysis and data presentation, sampling distributions, point estimation and
properties of estimators, Cramer Rao inequality, parameter estimation,
maximum likelihood and moment matching, interval estimation, hypothesis
testing, the Newman-Pearson lemma, likelihood ratio tests, goodness of fit
tests, linear regression, analysis of variance, nonparametric tests. |
| Prerequisite: | None |
| Math 351 | Qualitative Theory of Ordinary Differential Equations(Adi Diferansiyel Denklemlerin Nicelik Kuramı) | (4+2+0) 4 |
| Existence and
uniqueness theorems, phase portraits in the plane, linear systems and
canonical forms, non-linear systems, linearization, stability of fixed
points, limit cycles, Poincaré-Bendixson theorem. |
| Prerequisite: |
MATH
202 |
| Math 352 |
Partial Differential Equations (Kısmi Diferansiyel Denklemler) |
(3+2+0) 3 |
| Wave equation, heat
equation, Laplace equation, classification of second order linear equations,
initial value problems, boundary value problems, Fourier series, harmonic
functions, Green's functions. |
| Prerequisite: |
(MATH
202 and MATH 231) or (MATH 102 and MATH
202) |
| Math 363 | Graph Theory (Graflar Kuramı) | (4+2+0) 4 |
| Basic definitions,
trees, Cayley's formula, connectedness, Eulerian and Hamiltonian graphs,
matchings, edge and vertex colouring, chromatic numbers, planar graphs,
directed graphs, networks. |
| Prerequisite: |
MATH
162 or consent of instructor |
| Math 401 | History of Mathematics (Matematik Tarihi) | (3+2+0) 3 |
| Selected topics in the
history of mathematics and related fields. |
| Prerequisite: | Consent of instructor |
| Math 404 | Mathematica | (3+2+0) 3 |
| Mathematica as an
interactive symbolic calculator, graphics, algebra and calculus, solving
equations, solving differential equations, lists, matrices, transformation
rules, functional operations and pure functions, introduction to
programming, Mathematica packages such as discrete mathematics, linear
algebra, number theory, numerical mathematics, statistics. |
| Prerequisite: |
Two
MATH courses and consent of instructor |
| Math 411 | Mathematical Logic (Matematiksel Mantık) | (3+2+0) 3 |
| Propositional and
quantificational logic, formal grammar, semantical interpretation, formal
deduction, completeness theorems, selected topics from model theory and
proof theory. |
| Prerequisite: |
Consent of instructor
|
| Math 412 |
Introduction to Set Theory(Kümeler Kuramına Giriş) |
(3+2+0) 3 |
| Sets, relations,
functions, order, set-theoretical paradoxes, axiom systems for set theory,
axiom of choice and its consequences, transfinite induction, recursion,
cardinal and ordinal numbers. |
| Prerequisite: |
MATH
111 and consent of instructor
|
| Math 421 | Algebra III (Cebir III) | (3+2+0) 3 |
| Additional topics in
the theory of groups, separability, Galois theory, solution of an algebraic
equation by radicals, application to geometrical constructions.
|
| Prerequisite: |
MATH
322
|
| Math 424 | Linear Algebra II (Lineer Cebir II) | (3+2+0) 3 |
| Vector spaces over an
arbitrary field, linear independence, bases and dimension, matrices
associated with homomorphisms, diagonalization modules over a principal
ideal domain, elementary divisors, canonical forms of matrices, linear,
quadratic and bilinear forms, duality, inner product and unitary spaces,
adjoint operator, normal, unitary and hermitian operators, spectral theorem. |
| Prerequisite: |
MATH
224 and MATH 322
|
| Math 431 | Complex Analysis I (Karmaşık Analiz I) | (4+2+0) 4 |
| Complex
differentiation, Cauchy-Riemann equations, holomorphic functions, conformal
mappings, contour integration, Cauchy's theorem, Taylor and Laurent series,
open mapping theorem, maximum modulus principle, applications of the residue
theorem. |
| Prerequisite: |
MATH
232
|
| Math 432 | Complex Analysis II (Karmaşık Analiz II) | (4+2+0) 4 |
| Convergent series of
meromorphic functions, entire functions, Weierstrass' product theorem,
partial fraction expansion theorem of Mittag-Leffler, gamma function, normal
families, theorems of Montel and Vitali, Riemann mapping theorem, conformal
mapping of simply connected domains, Schwarz-Christoffel formula,
applications of conformal mapping. |
| Prerequisite: |
MATH
431
|
| Math 436 | Functional Analysis I (Fonksiyonel Analiz I) | (4+2+0) 4 |
| Introduction to linear
topological spaces, Banach and Hilbert spaces, duality, Banach-Steinhaus and
open mapping theorems, Hahn-Banach theorem, additional topics selected by
the instructor. |
| Prerequisite: |
MATH
331
|
| Math 437 | Optimization Theory (Eniyileme Kuramı) | (3+2+0) 3 |
| Normed linear spaces,
Hilbert spaces, least-squares estimation, dual spaces, geometric form of
Hahn-Banach theorem, linear operators and their adjoints, optimization in
Hilbert spaces, local and global theory of optimization of functionals,
constrained and unconstrained cases. |
| Prerequisite: |
MATH
331
|
| Math 438 | Functional Analysis II (Fonksiyonel Analiz II) | (3+2+0) 3 |
| Weak and weak*
topologies, convexity, Banach-Alaoglu theorem, Krein-Milman theorem,
additional topics selected by the instructor. |
| Prerequisite: |
MATH
436 and consent of the instructor.
|
| Math 442 | Risk Analysis (Risk Analizi) | (3+2+0) 3 |
| Definition of risk, risk treatment, measures of risk and risk aversion, modelling of loss distributions, basic ratemaking and reserving techniques, reinsurance, individual and collective risk theory, credibility theory and ruin theory. |
| Prerequisite: |
MATH
343 and Math 344 |
| Math 443 |
Basic
Pension Mathematics(Temel Emeklilik Hesapları) |
(3+2+0) 3 |
| Multiple life and
multiple decrement models, actuarial functions, design and financing of
retirement plans. |
| Prerequisite: |
MATH
342 and Math 343 |
| Math 444 | Ratemaking Models (Fiyatlandırma Modelleri) | (3+2+0) 3 |
| Advanced statistical
methods in nonlife insurance, ratemaking, loss reserving methods,
reinsurance models, insurer's solvency, simulation models in insurance, the
insurance firm as a financial institution. |
| Prerequisite: |
MATH
442 and consent of the instructor |
| Math 447 | Game Theory (Oyunlar Kuramı) | (3+2+0) 3 |
| Definition of a game,
two-person zero-sum games, the min-max theorem, computation of optimal
strategies, n-person games and other topics. |
| Prerequisite: |
MATH
201 and MATH 343 |
| Math 451 |
Numerical Solutions of Differential Equations(Diferansiyel Denklemlerin
Sayısal Çözümleri) |
(3+2+0) 3 |
| Runge-Kutta methods for
ordinary differential equations, multi-step methods, error analysis,
stability, finite difference methods for boundary value problems,
collocation method, explicit and implicit methods for solving parabolic
partial differential equations, finite difference methods, Galerkin method,
solution methods for hyperbolic problems. |
| Prerequisite: |
MATH
335 and MATH 352 |
| Math 455 | Calculus of Variations (Varyasyonlar Hesabı) | (3+2+0) 3 |
| First variation of a
functional, necessary conditions for an extremum of a functional, Euler's
equation, fixed and moving endpoint problems, isoperimetric problems,
problems with constraints, Legendre transformation, Noether's theorem,
Jacobi's theorem, second variation of a functional, weak and strong extremum,
sufficient conditions for an extremum, direct methods in calculus of
variations, the principle of least action, conservation laws, Hamilton-Jacobi
equation. |
| Prerequisite: |
MATH
202
|
| Math 461 | Coding Theory (Kodlar Kuramı) | (4+2+0) 4 |
| Basic definitions,
syndrome decoding, BCH and cyclic codes, quadratic residue codes, weight
distributions, relation to design theory. |
| Prerequisite: |
MATH
322
|
| Math 462 | Cryptography (Şifre Kuramı) | (3+2+0) 3 |
| Early crypto systems
and simple systems, public key cryptography, primality and factoring,
elliptic curve crypto systems. |
| Prerequisite: |
Consent of the instructor |
| Math 465 |
Calculus of Finite Differences(Sonlu Farklar Hesabı) |
(3+2+0) 3 |
| Divided differences,
interpolation and integration formulas, the shift, difference and mean
operators, factorials, Stirling numbers, Bernoulli and Euler polynomials,
sum calculus, gamma and related functions, Euler-Maclaurin summation
formula, Boole's summation formula, introduction to the theory of difference
equations, applications. |
| Prerequisite: |
MATH
162
|
| Math 471 | Topology I (Topoloji I) | (4+2+0) 4 |
| Topological spaces, compactness and connectedness, continuous functions, Tychonoff's theorem, separation axioms, Urysohn and Tietze theorems, homotopy, fundamental group, covering spaces. |
| Prerequisite: |
MATH
331
|
| Math 475 | Differential Geometry (Diferansiyel Geometri) | (3+2+0) 3 |
| Fundamentals of
Euclidean spaces, geometry of curves and surfaces in three-dimensional
Euclidean space, the Gauss map, the first and the second fundamental forms,
theorema egregium, geodesics, Gauss-Bonnet theorem, introduction to
differentiable manifolds. |
| Prerequisite: |
MATH
231 or MATH 102
|
| Math 476 | Differential Topology (Diferansiyel Topoloji) | (3+2+0) 3 |
| Smooth manifolds in R,
transversality, Morse functions, Sard's theorem, Whitney embedding theorem,
intersection theory mod 2, Jordan-Brouwer separation theorem, Borsuk-Ulam
theorem, oriented intersection theory, Lefschetz fixed point theorem,
Poincare-Hopf theorem, Hopf degree theorem.
|
| Prerequisite: |
MATH
332
|
| Math 477 | Projective Geometry (Projektif Geometri) | (3+2+0) 3 |
| Projective spaces and
homogenous coordinates, subspaces, the dual space, Desargues' theorem,
double ratio, collineation, projections and correlations, polarity, passage
to affine and metric spaces, plane algebraic curves and their singular
points, conics and cubics. |
| Prerequisite: |
MATH
201
|
| Math 478 | Groups and Geometries (Gruplar ve Geometriler) | (3+2+0) 3 |
| Plane Euclidean
geometry and its group of isometries, affine transformations in the
Euclidean plane, fundamental theorem of affine geometry, finite group of
isometries of R, Leonardo da Vinci's theorem, geometry on the sphere S,
motions of S, orthogonal transformations of R, Euler's theorem, right
triangles in S, projective plane, Desargues' theorem the fundamental theorem
of projective geometry. |
| Prerequisite: |
MATH
321
|
| Math 479 | Fractal Geometry (Fraktal Geometri) | (3+2+0) 3 |
| Hausdorff measure and
dimension, fractal dimension, product of fractals, iterated function
schemes, self-similar and self-affine sets, dimensions of geometric figures,
iteration of complex functions, Julia sets, Mandelbrot set, applications to
number theory, probability etc. |
| Prerequisite: |
MATH
232 or consent of the instructor |