Handbook 1996 : Faculty of Science (Volume 4 page 207)
Mathematics subject : Next:618-130 | Prev:618-121 | Search | Help

618-122 "Mathematics 1B" appears differently in several places - choose the one you want:

1. 618-122 Mathematics, Faculty of Science.
2. 618-122 Math. & Stats., Faculty of Educ(Parkville).
3. 618-122 First Year Engineering, Faculty of Engineering.
4. 618-122 Mathematical Sciences, Faculty of Eco & Comm.

1. Mathematics, Faculty of Science (v4, p207) : Next:618-130 | Prev:618-121
3. First Year Engineering, Faculty of Engineering (v4, p85) : Next:618-130 | Prev:618-121

618-122 Mathematics 1B

Note: Students may gain credit for only one of 618-122, 618-102 (1995 Handbook), 618-112, 618-200 and 618-211.

Credit points: 12.5

Coordinator: Professor J H Rubinstein

Prerequisite: Mathematics 618-101 (1995 Handbook) or 618-111 or 618-121

Contact: 39 lectures (three a week), 13 x 1-hour tutorials and 39 hours problem solving

Timetable: Second semester; available in first semester of the following year as 618-200

Objectives:

On completion of this subject, students should :

Comprehend:

• the basic properties of sequences and series, including Taylor series for functions;
• the concepts of abstract vector spaces and inner product spaces;
• the uses and properties of linear transformations;
• the role of eigenvalues and eigenvectors in the study of such mappings;
• the fundamental ideas in the calculus of functions of several variables.

Have developed:

• an ability to use tests to decide if sequences and series converge or diverge;
• the skills to find coordinates and matrices to represent vectors and linear transformations;
• the ability to change coordinate systems to simplify problems involving vector spaces and linear transformations;
• the skills to solve problems involving contours of surfaces;
• skills to find extrema of functions and to find volumes using differentiation and integration.

Appreciate:

• the role of series in estimation of functions;
• the role of linear algebra to find invariants and bring out the underlying geometry in problems;
• the similarities and differences between functions of one variable and multivariate functions.

Content:

Sequences and series: convergence and divergence of sequences and series; tests for convergence; Taylor's theorem and series representation of elementary functions. Linear algebra: vector spaces in general, axioms, linear independence, basis sets, dimensionality, Rⁿ and Cⁿ; inner products; linear transformations, matrix of a linear transformation, change of basis, rank, inverse, solution of linear equations; eigenvectors and eigenvalues, quadrics and conics, rotation matrices, diagonal, real-symmetric and orthogonal matrices. Multivariable calculus: functions of several variables, level curves, heights; partial derivatives, commutation of mixed partial derivatives; total derivative, gradient vector, directional derivatives and applications; chain rule; coordinate transformations, Jacobi matrix and determinant; Hessian matrix, maxima and minima of functions of several variables; surface areas and volumes of solids of revolution; introduction to double and triple integrals.

Assessment:

Up to 26 pages of written assignments and up to three hours of end-of-semester written examination.

1. Mathematics, Faculty of Science (v4, p207) : Next:618-130 | Prev:618-121
3. First Year Engineering, Faculty of Engineering (v4, p85) : Next:618-130 | Prev:618-121

2. Math. & Stats., Faculty of Educ(Parkville) (v5, p145) : Next:618-130 | Prev:618-121

618-122 Mathematics 1B

Note: Students may gain credit for only one of 618-122, 618-102 (1995 Handbook), 618-112, 618-200 and 618-211.

Credit points: 12.5

Coordinator: Professor J H Rubinstein.

Prerequisite: Mathematics 618-101 (1995 Handbook) or 618-111 or 618-121.

Contact: 39 lectures (three each week), 13 1-hour tutorials and 39 hours problem solving

Timetable: Second semester; available in first semester of the following year as 618-200.

Objectives:

On completion of this subject, students should :

Comprehend:

• the basic properties of sequences and series, including Taylor series for functions;
• the concepts of abstract vector spaces and inner product spaces;
• the uses and properties of linear transformations;
• the role of eigenvalues and eigenvectors in the study of such mappings;
• the fundamental ideas in the calculus of functions of several variables.

Have developed:

• an ability to use tests to decide if sequences and series converge or diverge;
• the skills to find coordinates and matrices to represent vectors and linear transformations;
• the ability to change coordinate systems to simplify problems involving vector spaces and linear transformations;
• the skills to solve problems involving contours of surfaces;
• skills to find extrema of functions and to find volumes using differentiation and integration.

Appreciate:

• the role of series in estimation of functions;
• the role of linear algebra to find invariants and bring out the underlying geometry in problems;
• the similarities and differences between functions of one variable and multivariate functions.

Content:

Sequences and series Convergence and divergence of sequences and series; tests for convergence; Taylor's theorem and series representation of elementary functions. Linear algebra Vector spaces in general, axioms, linear independence, basis sets, dimensionality, Rⁿ and Cⁿ; inner products; linear transformations, matrix of a linear transformation, change of basis, rank, inverse, solution of linear equations; eigenvectors and eigenvalues, quadrics and conics, rotation matrices, diagonal, real- symmetric and orthogonal matrices. Multivariable calculus Functions of several variables, level curves, heights; partial derivatives, commutation of mixed partial derivatives; total derivative, gradient vector, directional derivatives and applications; chain rule; coordinate transformations, Jacobi matrix and determinant; Hessian matrix, maxima and minima of functions of several variables; surface areas and volumes of solids of revolution; introduction to double and triple integrals.

Assessment:

Up to 26 pages of written assignments and up to three hours of end-of-semester written examination.

* Note that CONTACT, CONTENT differs from the maintainer's version above. A log of variations is available.

2. Math. & Stats., Faculty of Educ(Parkville) (v5, p145) : Next:618-130 | Prev:618-121

4. Mathematical Sciences, Faculty of Eco & Comm (v3, p208) : Next:618-151 | Prev:618-121

618-122 Mathematics 1B

Note: Students may gain credit for only one of 618-122, 618-102 (1995 Handbook), 618-112, 618-200 and 618-211.

Availability: Available in first semester of the following year as 618-200

Credit points: 12.5

Coordinator: Professor J H Rubinstein

Prerequisite: Mathematics 618-101 (1995 Handbook) or 618-111 or 618-121

Contact: 39 lectures (three a week), 13 x 1-hour tutorials and 39 hours problem solving

Timetable: Second semester

Objectives:

On completion of this subject, students should :

Comprehend:

• the basic properties of sequences and series, including Taylor series for functions;
• the concepts of abstract vector spaces and inner product spaces;
• the uses and properties of linear transformations;
• the role of eigenvalues and eigenvectors in the study of such mappings;
• the fundamental ideas in the calculus of functions of several variables.

Have developed:

• an ability to use tests to decide if sequences and series converge or diverge;
• the skills to find coordinates and matrices to represent vectors and linear transformations;
• the ability to change coordinate systems to simplify problems involving vector spaces and linear transformations;
• the skills to solve problems involving contours of surfaces;
• skills to find extrema of functions and to find volumes using differentiation and integration.

Appreciate:

• the role of series in estimation of functions;
• the role of linear algebra to find invariants and bring out the underlying geometry in problems;
• the similarities and differences between functions of one variable and multivariate functions.

Content:

Sequences and series Convergence and divergence of sequences and series; tests for convergence; Taylor's theorem and series representation of elementary functions. Linear algebra Vector spaces in general, axioms, linear independence, basis sets, dimensionality, Rn and Cn; inner products; linear transformations, matrix of a linear transformation, change of basis, rank, inverse, solution of linear equations; eigenvectors and eigenvalues, quadrics and conics, rotation matrices, diagonal, realsymmetric and orthogonal matrices. Multivariable calculus Functions of several variables, level curves, heights; partial derivatives, commutation of mixed partial derivatives; total derivative, gradient vector, directional derivatives and applications; chain rule; coordinate transformations, Jacobi matrix and determinant; Hessian matrix, maxima and minima of functions of several variables; surface areas and volumes of solids of revolution; introduction to double and triple integrals.

Assessment:

Up to 26 pages of written assignments and up to three hours of end-of-semester written examination.

* Note that AVAILABILITY, CONTENT, OBJECTIVES, SEMESTER differs from the maintainer's version above. A log of variations is available.

4. Mathematical Sciences, Faculty of Eco & Comm (v3, p208) : Next:618-151 | Prev:618-121

Up to navigation aids

Status:          Official 1996
Date created:    Oct  9 1995
Last modified:   Oct  9 1995
Authorised by:   Academic Registrar
Email enquiries: Course_Information@registrar.unimelb.edu.au

Copyright © University of Melbourne 1995,1996.