3.4 The functional domains of Src
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
Author(s): The Open University

Entrepreneurs - born or made? Can risky decision-making, essential to the entrepreneurial process, b
New research shows that entrepreneurs are highly-adapted risk-takers, and that this functional impulsivity is key to their success. It can also be taught; Dr Shai Vyakarnam explains how.
Author(s): No creator set

16.842 Fundamentals of Systems Engineering (MIT)
This course introduces the principles and methods of Systems Engineering. Lectures follow the "V"-model of Systems Engineering, including needs identification, requirements formulation, concept generation and selection, trade studies, preliminary and detailed design, component and subsystem test and integration as well as functional testing and delivery and operations. Additional concepts such as tradeoffs between performance, cost and system operability will be discussed. Systems Engi
Author(s): Olivier de Weck

9.14 Brain Structure and Its Origins (MIT)
Outline of mammalian functional neuroanatomy, aided by studies of comparative neuroanatomy and evolution, and of brain development. Topics include early steps to a central nervous system, basic patterns of brain and spinal cord connections, regional development and differentiation, regeneration, motor and sensory pathways and structures, systems underlying motivations, innate action patterns, formation of habits, and various cognitive functions. Lab techniques reviewed. Optional brain dissectio
Author(s): Gerald Schneider

Matthew Botvinick: Computer Modeling of the Mind and Brain - May 6, 2009
Lunch 'n Learn presentation: Brain ==> Computation ==> Behavior. Matthew Botvinick's lab works at the intersection of neuroscience, psychology and computer science, seeking to clarify the computational and neural foundations of human behavior. In pursuit of this mission, they employ a diverse set of research tools, including functional neuroimaging (fMRI), behavioral techniques (reaction time, error, and decision analyses), and computational modeling (neural networks, reinforcement learning mod
Author(s): No creator set

Matthew Botvinick: Computer Modeling of the Mind and Brain - May 6, 2009 PDF
Lunch 'n Learn presentation: Brain ==> Computation ==> Behavior. Matthew Botvinick's lab works at the intersection of neuroscience, psychology and computer science, seeking to clarify the computational and neural foundations of human behavior. In pursuit of this mission, they employ a diverse set of research tools, including functional neuroimaging (fMRI), behavioral techniques (reaction time, error, and decision analyses), and computational modeling (neural networks, reinforcement learning mod
Author(s): No creator set

Rat anatomy, Male, Intestines displaced to left of abdominal cavity, insitu 2, (direct/above view)
Rat anatomy, Male, Intestines displaced to left of abdominal cavity, insitu 2, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Author(s): Megan Quentin-Baxter, Newcastle University

Histology, brain injected x10, (direct/above view)
Histology, brain injected x10, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Author(s): Megan Quentin-Baxter, Newcastle University

14.381 Statistical Method in Economics (MIT)
The course introduces statistical theory to prepare students for the remainder of the econometrics sequence. The emphasis of the course is to understand the basic principles of statistical theory. A brief review of probability will be given; however, this material is assumed knowledge. The course also covers basic regression analysis. Topics covered include probability, random samples, asymptotic methods, point estimation, evaluation of estimators, Cramer-Rao theorem, hypothesis tests, Neyman Pe
Author(s): Chernozhukov, Victor

Histology, cardiac x4, (direct/above view)
Histology, cardiac x4, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Author(s): Megan Quentin-Baxter, Newcastle University

Rat anatomy, Male, About to cut through rectum 2, (direct/above view)
Rat anatomy, Male, About to cut through rectum 2, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Author(s): Megan Quentin-Baxter, Newcastle University

27. Programming Paradigms Lecture 27
science, math, engineering, computer, language, source code, technology, programming, python, haskell, sasha rush, facebook, ML, meta-language, imperative, functional, fibonacci, compile
Author(s): No creator set

26. Programming Paradigms Lecture 26
science, math, engineering, computer, language, source code, technology, programming, python, imperative, object oriented, functional, xml, processing, internet, content handler, url, html, node
Author(s): No creator set

25. Programming Paradigms Lecture 25
science, math, engineering, computer, language, source code, technology, programming, python, imperative, object oriented, functional, recursion, dictionary, syntax layer, shell script
Author(s): No creator set

24. Programming Paradigms Lecture 24
science, math, engineering, computer, language, source code, technology, programming, python, imperative, object oriented, functional, procedural, shell script
Author(s): No creator set

23. Programming Paradigms Lecture 23
science, math, engineering, computer, language, source code, technology, programming, scheme, functional, paradigm, recursion, memory model, unary map, function
Author(s): No creator set

22. Programming Paradigms Lecture 22
science, math, engineering, computer, language, source code, technology, programming, scheme, functional, paradigm, recursion, discrete, lambda, power set, let binding
Author(s): No creator set

21. Programming Paradigms Lecture 21
science, math, engineering, computer, language, source code, technology, programming, scheme, functional, paradigm, iteration, recursion, run-time, development, pointer, apply, eval, map
Author(s): No creator set

20. Programming Paradigms Lecture 20
science, math, engineering, computer, language, source code, technology, programming, scheme, functional, paradigm, iteration, recursion, call, run-time, script, flatten, empty list, condition, pointer
Author(s): No creator set

19. Programming Paradigms Lecture 19
science, math, engineering, computer, language, source code, technology, programming, scheme, paradigm, assembly, functional, return value, threading, kawa, compile, evaluate
Author(s): No creator set