Karageorgis, Paschalis - School of Mathematics, Trinity College, Dublin

• MA121, 2009 Final exam 1. Show that there exists some 0 < x < 1 such that 4x3
• Analysis Problems #2 1. Let f be a function which is defined on the interval [0, 2]. Show that
• Analysis Homework #6 1. Suppose f is non-negative and integrable on [0, 1] with f(x) = 0 for all x Q. Show
• ODEs, Homework #5 1. In each of the following cases, is the zero solution stable? Asymptotically stable?
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• Sample final exam 1a. Indeed, every solution has the form x(t) = c1 sin t + c2 cos t.
• Some definitions Definition 1 (ODE/PDE). A differential equation is an equation that involves a function
• 2010 final exam 1a. In this case, the characteristic equation gives
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• Analysis Problems #1 1. Make a table listing the min, inf, max and sup of each of the following sets; write DNE
• 5 Linear homogeneous systems Definition 5.1 (Linear dependence). The vector-valued functions y1, . . . , yn are said to
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• Heat equation on the half line Dirichlet: Consider the Dirichlet problem for the heat equation
• MA121, 2007 Final exam 1. Suppose that A is a nonempty subset of R that has an upper bound, and let B be the set
• PDEs, Homework #4 Problems: 1, 2, 4, 7, 10
• ODEs, Homework #4 First five problems
• Maths 212: Homework Solutions 55. Despite the original statement of this problem, one has to also assume that the given space
• 2 First-order linear ODE Definition 2.1 (Linear & homogeneous). An ODE is called linear, if it has the form
• Heat equation: initial value problem Theorem 1 (Explicit formula). Consider the initial value problem on the real line
• Dr. Paschalis Karageorgis (Pete) pete@maths.tcd.ie
• Analysis Problems #7 1. Suppose f(x) is differentiable with f
• 11 Reduction of order Theorem 11.1 (Reduction of order). Suppose that y1(t) is a nonzero solution of
• 2008 final exam 1a. Only (ii), (iii) and (v) are linear. Only (ii) and (v) are homogeneous.
• Maths 212: Homework Solutions 1. The definition of A ensures that x for all x A, so is an upper bound of A. To
• Ordinary Differential Equations Dr. Paschalis Karageorgis (Pete)
• Analysis Homework #1 1. Determine max A when A = {y R : y = -3x2
• 2010 Final exam 1. Show that the set A = {n+1
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• Analysis Homework #4 1. Find the values of x for which 6x3
• The main results 1. Show that every solution of the wave equation utt = c2
• Limits and continuity 2.1 The definition of a limit
• Analysis Problems #5 1. Show that the polynomial f(x) = x3
• PDEs, Homework #2 Problems: 2, 7, 8, 9, 10
• PDEs, Homework #5 1. Consider the function u: R R defined by
• Analysis Homework #5 1. Suppose that f is differentiable with
• PDEs, Homework #1 Problems: 2, 4, 5, 6, 7
• PDEs, Homework #3 Problems: 1, 3, 4, 5, 9
• SMALL-DATA SCATTERING FOR NONLINEAR WAVES OF CRITICAL DECAY IN TWO SPACE DIMENSIONS
• Laplace equation: general facts Definition 1 (Harmonic). A function u: Rn
• Some basic concepts 1.1 The set of real numbers
• Derivatives 3.1 The definition of a derivative
• 4.1 The definition of an integral Notation (Sigma notation). The Greek letter is used to denote sums such as
• Analysis Homework #2 1. Show that the set A = {x + 1
• Analysis Homework #3 1. Show that the function f defined by
• Analysis Homework #7 1. Define a sequence {an} by letting a1 = 2 and
• Analysis Homework #8 1. Test each of the following series for convergence
• Analysis Problems #3 1. Suppose that f is continuous with f(0) < 1. Show that there exists some > 0 such
• Analysis Problems #8 1. Test each of the following series for convergence
• Analysis Problems #9 1. An ant starts out at the origin in the xy-plane and walks 1 unit south, then 1/2 units
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• Sample exam 1. Show that the set A = {2n+3
• 7 Exponentials: Some examples Example 7.1 (2 2 diagonalizable). We compute etA in the case that
• 9 Method of undetermined coefficients Theorem 9.1 (Undetermined coefficients). Consider the non-homogeneous ODE
• 12 Stability of linear systems Definition 12.1. An autonomous system of ODEs is one that has the form y = f(y). We
• 13 Lyapunov stability Definition 13.1 (Positive definite). We say that V (x, y) is positive definite, if V (x, y) 0
• ODEs, Homework #3 First five problems
• ODEs, Homework #1 1. Determine all functions y = y(t) such that y
• ODEs, Homework #4 1. Check that y1(t) = t is a solution of the second-order ODE
• Partial Differential Equations Dr. Paschalis Karageorgis (Pete)
• Method of characteristics: a special case Consider a first-order linear homogeneous PDE of the form
• PDEs, Homework #5 Problems: 1, 2, 4, 5, 8
• PDEs, Homework #3 1. Use Holder's inequality to show that the solution of the heat equation
• Proofs of the main results 1. Homework 2, Problem 3 is quite similar. The main idea is to factor the PDE as
• Maths 212, Syllabus Metric Spaces and Topology
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• Analysis Problems #6 1. Suppose that f is differentiable with f
• 2007 final exam 1a. x(t) = c1e-t
• MA121, 2008 Final exam 1. Suppose that A is a nonempty subset of R that has a lower bound and let > 0 be given.
• ODEs, Homework #2 1. Find all solutions of the system of ODEs
• Second-order linear equations Theorem 1 (Canonical forms). Consider a second-order linear PDE, say
• PDEs, 2009 exam 1a. It is first-order, linear and homogeneous.
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• 8 Homogeneous with constant coefficients Theorem 8.1 (Scalar homogeneous). Consider the nth-order scalar ODE
• Maths 212: Homework Solutions 95. Letting x = (x1, x2, . . .) and y = (y1, y2, . . .), we may use the triangle inequality to get
• PDEs, Homework #2 1. Show that the solution u(x, t) of the initial value problem
• 14 Stability of nonlinear systems Theorem 14.1 (Stability of nonlinear systems). Consider the system
• PDEs, 2007 exam 1a. Using the method of characteristics, we get the system of ODEs
• PDEs, Homework #1 1. Show that the linear change of variables
• Sequences and series 5.1 Sequences
• PDEs, Homework #4 1. Show that the average value of a harmonic function over a ball is equal to its value at
• 6 Exponential of a matrix Definition 6.1. Given a square matrix A, we define its exponential eA
• Wave equation: initial value problem Theorem 1 (Formulas). Every solution of the wave equation utt = c2
• ODEs, Homework #3 1. Suppose A, B are constant square matrices such that etA
• 2009 final exam 1a. x(t) = c1e-t
• Wave equation on the half line Dirichlet: Consider the Dirichlet problem for the wave equation
• Linear systems Definition 1 (Linear equation). An equation involving the unknowns x1, x2, . . . , xn is
• Linear algebra I Tutorial solutions #4
• Linear algebra I Homework #7 solutions
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• Linear algebra I Tutorial solutions #6
• Basis for a subspace Example 1 (Null space). We find a basis for the null space of the matrix
• Linear algebra I Homework #6 solutions
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• Linear algebra I Tutorial solutions #5
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• Row reduction Definition 1 (Elementary row operations). There are three kinds of such operations
• Linear algebra I Homework #3 solutions
• Linear algebra I Homework #5 solutions
• Linear algebra I Tutorial solutions #3
• Linear algebra I Tutorial solutions #8
• Permutation matrices Matrices with a single 1 in each row and each column, all other entries being zero.
• Linear algebra I Paschalis Karageorgis (Pete)
• Linear algebra I Homework #4
• Linear algebra I Homework #1 solutions
• The following are equivalent for an n n matrix A 1. The system Ax = b has a unique solution for every vector b Rn
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• Linear algebra I 2009 final exam solutions
• PDEs, Homework #1 Problems: 2, 5, 6, 8
• Linear algebra II Homework #3 solutions
• Linear algebra II Homework #1 solutions
• PDEs, Homework #1 1. Consider the equation ux -yuy = 2u subject to u(x, 0) = f(x). Find a function f for
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• Coordinate vectors Definition 1. Suppose V is a vector space and B = {v1, v2, . . . , vn} is a basis of V . Then
• PDEs, Homework #3 Problems: 3, 4, 8, 9
• PDEs, Homework #2 Problems: 2, 4, 7, 8
• Linear algebra II Tutorial solutions #2
• The null space N(A) of a matrix A is the set of all vectors x such that Ax = 0. The null space of a matrix is the null space of its reduced row echelon form.
• Linear algebra I Tutorial solutions #9
• Linear algebra II Homework #4 solutions
• Finding a Jordan basis A Jordan basis for A is a matrix B such that J = B-1
• Similar matrices Two matrices A, J are called similar, if J = B-1
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• Linear algebra I Homework #8 solutions
• Linear algebra II Homework #5 solutions
• Column space The column space C(A) of a matrix A is the span of the columns of A. Thus, v is in
• Linear transformations Definition 1. A map T : V W between vector spaces is a linear transformation, if
• Linear algebra II Homework #2 solutions
• 1 Homogeneous heat equation, zero Dirichlet In this section, we solve the problem
• Linear algebra II Paschalis Karageorgis (Pete)
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• Partial Differential Equations Paschalis Karageorgis (Pete)
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• Linear algebra I Sample exam solutions