Molecular reaction dynamics
This package, written in 1998, includes interactive questions and demonstrations on the dynamics of chemical reactions. The aim is to show the effect of the potential energy surface, on reaction rates. It is intended for third or fourth year undergraduates in Chemistry. To download, click on View Download and follow the instructions. To uninstall, use the standard Windows option of “Add or Remove Programs”.
TALAT Lecture 2703: Construction and Dynamic Testing of Aluminium Nodes
This lecture demonstrates, how optimum design and fabrication of extruded space frame members joined by welding can lead to significant weight savings, high service life and economy under fatigue loading conditions. Basic knowledge of structural engineering, extrusion design, welding and fatigue; and some familiarity with TALAT lectures no. 1302, 1501, 2200, 2302 and 2400 is assumed.
Article :: Build a Dynamic App Step-by-Step in Dreamweaver 8
By the end of this lesson, you’ll have an idea of how dynamic sites work, and what they are created to do; you’ll have Macromedia Dreamweaver configured to work with dynamic data; and you’ll have created your first page that uses dynamic content.
Web Design and Objects - Object Oriented Dynamic Design Methods & Consensus
This reading material forms part of the "Object Oriented Dynamic Design Methods & Consensus" topic in the Web Design and Objects module.
Web Design and Objects - Data Oriented Dynamic Design Methods
This reading material forms part of the "Data Oriented Dynamic Design Methods" topic in the Web Design and Objects module.
Introduction to Molecular Spectroscopy
This guide provides an introduction to the different types of molecular spectroscopic analysis, describing the basic principles of each technique and practical considerations including sample preparation. It is illustrated with simple diagrams, photographs of equipment and information to aid interpretation of spectra.
Index to Dynamic Earth Warmups
This website, developed for the Dynamic Earth course at Winona State University, describes a long list of warm-up activities regarding several different subjects. Subjects include, minerals, igneous rocks, volcanism, weathering, sedimentary rocks, metamorphic rocks, geologic time, earthquakes, internal ...
Molecular Biology and Genetics in Modern Medicine Geneticists have discovered that "junk" genes that lie dead in our DNA can come back to life and cause muscular dystrophy. Scientists such as MIT's David Housman
Geneticists have discovered that "junk" genes that lie dead in our DNA can come back to life and cause muscular dystrophy. Scientists such as MIT's David Housman
Dynamic Gene is designed to let students learn about plant genomes by using bioinformatics to analyze newly sequenced genes in rice and maize. Many of these genes have only been predicted by computers and have never been closely examined by human beings! The site's name emphasizes the gene both as a dynamic structure that changes through evolutionary time, but also as a dynamic concept that changes with our increasing knowledge of genome organization. The design for Dynamic Gene recalls the "str
A Call for Judgment: sensible finance for a dynamic economy
Our prosperity requires the enterprise of innumerable individuals and businesses who exercise their imagination and judgment—and bear responsibility for outcomes. And widespread enterprise is fostered through dialogue and relationships, not merely prices in anonymous markets. Yet in the last several decades finance has become increasingly centralised, distanced, and mechanistic. Bhide's lecture explains how bad theories and mis-regulation led to this dangerous divergence between the real econo
12.458 Molecular Biogeochemistry (MIT)
This course evaluates and discusses the formation and diagnostic structural properties of organic compounds with particular emphasis on those molecules which form chemical fossils. The course is structured around the biosynthetic and phylogenetic origins of recalcitrant hydrocarbons.
14.128 Dynamic Optimization & Economic Applications (Recursive Methods) (MIT)
The unifying theme of this course is best captured by the title of our main reference book: "Recursive Methods in Economic Dynamics". We start by covering deterministic and stochastic dynamic optimization using dynamic programming analysis. We then study the properties of the resulting dynamic systems. Finally, we will go over a recursive method for repeated games that has proven useful in contract theory and macroeconomics. We shall stress applications and examples of all these techniques throu
HST.730 Molecular Biology for the Auditory System (MIT)
An introductory course in the molecular biology of the auditory system. First half focuses on human genetics and molecular biology, covering fundamentals of pedigree analysis, linkage analysis, molecular cloning, and gene analysis as well as ethical/legal issues, all in the context of an auditory disorder. Second half emphasizes molecular approaches to function and dysfunction of the cochlea, and is based on readings and discussion of research literature.
9.530 Cellular and Molecular Computation (MIT)
Life as an emergent property of networks of chemical reactions involving proteins and nucleic acids. Mathematical theories of metabolism, gene regulation, signal transduction, chemotaxis, excitability, motility, mitosis, development, and immunity. Applications to directed molecular evolution, DNA computing, and metabolic and genetic engineering.
6.241 Dynamic Systems & Control (MIT)
6.241 examines linear, discrete- and continuous-time, and multi-input-output systems in control and related areas. Least squares and matrix perturbation problems are considered. Topics covered include: state-space models, modes, stability, controllability, observability, transfer function matrices, poles and zeros, minimality, internal stability of interconnected systems, feedback compensators, state feedback, optimal regulation, observers, observer-based compensators, measures of control p
18.417 Introduction to Computational Molecular Biology (MIT)
This course introduces the basic computational methods used to understand the cell on a molecular level. It covers subjects such as the sequence alignment algorithms: dynamic programming, hashing, suffix trees, and Gibbs sampling. Furthermore, it focuses on computational approaches to: genetic and physical mapping; genome sequencing, assembly, and annotation; RNA expression and secondary structure; protein structure and folding; and molecular interactions and dynamics.
15.969 Dynamic Leadership: Using Improvisation in Business (MIT)
The first two weeks of this course are an overview of performing improvisation with introductory and advanced exercises in the techniques of improvisation. The final four weeks focus on applying these concepts in business situations to practice and mastering these improvisation tools in leadership learning.
HST.176 Cellular and Molecular Immunology (MIT)
This course covers cells and tissues of the immune system, lymphocyte development, the structure and function of antigen receptors, the cell biology of antigen processing and presentation, including molecular structure and assembly of MHC molecules, the biology of cytokines, leukocyte-endothelial interactions, and the pathogenesis of immunologically mediated diseases. The course is structured as a series of lectures and tutorials in which clinical cases are discussed with faculty tutors. Lecture
7.28 Molecular Biology (MIT)
This course covers a detailed analysis of the biochemical mechanisms that control the maintenance, expression, and evolution of prokaryotic and eukaryotic genomes. The topics covered in lectures and readings of relevant literature include gene regulation, DNA replication, genetic recombination, and mRNA translation. In particular, the logic of experimental design and data analysis is emphasized.
20.450 Molecular and Cellular Pathophysiology (BE.450) (MIT)
This course focuses on the fundamentals of tissue and organ response to injury from a molecular and cellular perspective. There is a special emphasis on disease states that bridge infection, inflammation, immunity, and cancer. The systems approach to pathophysiology includes lectures, critical evaluation of recent scientific papers, and student projects and presentations. This term, we focus on hepatocellular carcinoma (HCC), chronic-active hepatitis, and hepatitis virus infections. In addition