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2019/20 Undergraduate Module Catalogue
MATH1012 Mathematics 2
25 creditsClass Size: 290
Module manager: Dr Derek Harland; Dr Vincent Caudrelier
Email: D.G.Harland@leeds.ac.uk; V.Caudrelier@leeds.ac.uk
Taught: Semester 2 (Jan to Jun) View Timetable
Year running 2019/20
This module is mutually exclusive with
|MATH1050||Calculus and Mathematical Analysis|
|MATH1055||Numbers and Vectors|
|MATH1060||Introductory Linear Algebra|
|MATH1331||Linear Algebra with Applications|
|MATH1400||Modelling with Differential Equations|
This module is not approved as a discovery module
Module summaryThis module builds on the material of MATH1010 (Mathematics 1) in introducing fundamental areas of mathematics. Calculus is extended to functions of several variables. Further topics in linear algebra are developed, introducing concepts such as basis, dimension, eigenvectors. The study of ordinary differential equations is continued and extended to higher order equations and systems of differential equations. These fundamental techniques in applied mathematics will be applied to problems in Newtonian mechanics, which will serve as the main example of how mathematics is used to describe the physical world.
ObjectivesOn completion of this module, students should:
- be able to derive and solve ordinary differential equations arising in applications, for example in the study of oscillators;
- model mechanical problems in both Cartesian and polar coordinate systems;
- solve problems based on Newton's Laws via principles of Work, Energy and Momentum;
- understand properties of linear algebra such as linear dependence, kernel, range and basis;
- be comfortable solving first order ordinary differential equations by a variety of methods;
- be able to compute eigenvalues and eigenvectors of matrices;
- be able to diagonalise matrices and perform a change of variables.
- Review of vectors and matrices. Subspaces, bases and dimensions.
- Linear combinations and dependence. Kernel and range.
- Eigenvalues and eigenvectors. Diagonalisation.
- Introduction to ordinary differential equations. Solution of 1st order ODEs.
- Basic kinematics, phase space. Newton's laws of motion, forces (gravity, springs, viscous drag). Harmonic oscillator.
- Linear second order equations, supposition of solutions. Constant coefficient homogeneous differential equations.
- Undamped and damped harmonic oscillators. Phase portraits.
- Oscillators with external forcing. Inhomogeneous differential equations. Particular integrals.
- Forced oscillations and resonance. Impulse.
- Energy and work. Kinetic energy, potential energy, conservative and dissipative forces.
- Newton's law of gravitation. Circular motion. Polar coordinates. Angular velocity and momentum.
- Pendulums. Phase portraits.
|Delivery type||Number||Length hours||Student hours|
|Private study hours||176.00|
|Total Contact hours||74.00|
|Total hours (100hr per 10 credits)||250.00|
Private studyStudying and revising of course material.
Completing of assignments and assessments.
Opportunities for Formative FeedbackWeekly tutorials. Examples sheets marked and returned with feedback.
!!! In order to pass the module, students must pass the examination. !!!
Methods of assessment
|Assessment type||Notes||% of formal assessment|
|Written Work||Example sheets and project work||20.00|
|Total percentage (Assessment Coursework)||20.00|
There is no resit available for the coursework component of this module. If the module is failed, the coursework mark will be carried forward and added to the resit exam mark with the same weighting as listed above.
|Exam type||Exam duration||% of formal assessment|
|Standard exam (closed essays, MCQs etc)||3 hr 00 mins||80.00|
|Total percentage (Assessment Exams)||80.00|
Normally resits will be assessed by the same methodology as the first attempt, unless otherwise stated
Reading listThe reading list is available from the Library website
Last updated: 05/11/2019 08:50:01
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