Revoltorb
8th December 2012, 22:51
So the university I'm at records all of our lectures for later viewing which we can then download. I've saved all the lectures from the courses I'm finishing up this semester and wanted to know if people would be interested in torrents of any of the following:
Structural Reliability - Examines applications of probability theory and random variables for determining the reliability of structures. Includes the following topics: formulation of reliability for structural components and systems; first-order second-moment method, first- and second-order reliability methods, and simulation methods; analysis of model uncertainty and Bayesian parameter estimation technique; load and resistance models and bases for probabilistic structural codes; and time-dependent reliability methods. Assumes no prior knowledge of probability theory.
Linear Systems Analysis - Covers fundamental algebraic concepts and algebraic structures. Topics include linear operators and their representations; matrices, algebraic equations, equivalence, and similarity transformations; introduction to the state-variable theory of continuous and discrete linear systems; standard canonical representations, the concept of state, and the representation of interconnected systems, linear spaces, the state equations, and their solution; stability; and introduction to the general control problem in terms of controllability and observability.
Elasticity and Plasticity - Covers stress and strain analysis in continuous media. Analyzes Cartesian tensors using indicial notation; stress and strain concepts; point stress and strain; relation to tensor concepts; equations of equilibrium and compatibility; constitutive laws for elastic, general, axisymmetric, plane stress, and plane strain formulations and solutions; the relation of elasticity to structural mechanics theories; physical basis of plastic/inelastic deformation of solids; and constitutive descriptions of plasticity including yielding, hardening rules, Prandtl-Reuss constitutive laws, and viscoplasticity.
They're all engineering related courses as that's what I'm going for my PhD in but if you're interested let me know. The first course (structural reliability) really doesn't do any specifics about structures until the last like few lectures so it's mostly how to do multiple random variable analysis.
If people (or even just one person) likes this I'll probably do this for all of my classes I take over the next two semesters.
Oh yeah, they're all video recordings that I've put into .mkv containers so cross-platform compatibility shouldn't be an issue.
(I wasn't sure if this should go in Non-political or Mutual Aid so feel free to move it to the most appropriate forum.)
Structural Reliability - Examines applications of probability theory and random variables for determining the reliability of structures. Includes the following topics: formulation of reliability for structural components and systems; first-order second-moment method, first- and second-order reliability methods, and simulation methods; analysis of model uncertainty and Bayesian parameter estimation technique; load and resistance models and bases for probabilistic structural codes; and time-dependent reliability methods. Assumes no prior knowledge of probability theory.
Linear Systems Analysis - Covers fundamental algebraic concepts and algebraic structures. Topics include linear operators and their representations; matrices, algebraic equations, equivalence, and similarity transformations; introduction to the state-variable theory of continuous and discrete linear systems; standard canonical representations, the concept of state, and the representation of interconnected systems, linear spaces, the state equations, and their solution; stability; and introduction to the general control problem in terms of controllability and observability.
Elasticity and Plasticity - Covers stress and strain analysis in continuous media. Analyzes Cartesian tensors using indicial notation; stress and strain concepts; point stress and strain; relation to tensor concepts; equations of equilibrium and compatibility; constitutive laws for elastic, general, axisymmetric, plane stress, and plane strain formulations and solutions; the relation of elasticity to structural mechanics theories; physical basis of plastic/inelastic deformation of solids; and constitutive descriptions of plasticity including yielding, hardening rules, Prandtl-Reuss constitutive laws, and viscoplasticity.
They're all engineering related courses as that's what I'm going for my PhD in but if you're interested let me know. The first course (structural reliability) really doesn't do any specifics about structures until the last like few lectures so it's mostly how to do multiple random variable analysis.
If people (or even just one person) likes this I'll probably do this for all of my classes I take over the next two semesters.
Oh yeah, they're all video recordings that I've put into .mkv containers so cross-platform compatibility shouldn't be an issue.
(I wasn't sure if this should go in Non-political or Mutual Aid so feel free to move it to the most appropriate forum.)