In this module mathematical techniques required by the second year Electronic and Electrical Engineering, Mechanical Engineering and Civil Engineering programmes are covered.
Integral transforms
Fourier series
Fourier transforms
Laplace transfroms
Multivariable calculus
Partial differentiation and the gradient
Line integrals
Surface and volume integrals
Divergence and Curl
Linear Algebra
Vector representation of documents and text retrieval
Linear dependence, orthonormal bases, the Gram-Schmidt process
Linear transformations and matrices, vector subspaces, subspace projectionsEigenvector decomposition, covariance and Principal
Components Analysis (PCA)
Metric spaces and clustering
The Discrete Fourier Transform
Probablility and statistics
Probability
Probability distributions and random variables
Descriptive statistics.
Hypothesis testing
Handling experimental data and experimental uncertainty
Statistical decision making
Markov processes
Learning Outcomes
By the end of the module students should be able to:
Students should be able to solve mathematical problems involving, integral transforms, vector calculus, linear algebra and probability and statistics
Demonstrate an understanding of the application of integral transforms, vector calculus, linear algebra and probability and statistics to the solution of engineering problems.
Evaluate uncertainty and probability arising from experimental data