International Classification of Function, Disability and Health
This package was originally designed for undergraduates in Medicine at the University of Nottingham. It will also be useful to students in nursing, allied health professions and pharmacy. Practitioners in these fields, who are new to the ICF, will also find it a useful introduction. It describes the International Classification of Functioning, Disability and Health (ICF), a classification system published by the World Health Organisation to describe health status. This system is widely used in r
Pancreas structure and function
This topic starts with a labelled diagram, showing the position of the pancreas in relation to the jejunum and small intestine. A table clearly differentiates the pancreas as an exocrine and endocrine gland.
Liver structure and function
This topic has labelled diagrams of the liver (posterior and anterior view). In addition, a table summarises the functions of the liver.
Renal structure and function
This topic begins with an introduction to the nephron unit and a diagram supports the text. An interactive diagram showing the components of the nephron is included. The physiology of micturation is described and a diagram summarises this process.
Bone structure and function
This topic begins with the primary functions of bone and explores the structure, showcasing anatomical images of the femur as an example. A diagrammatical overview of a bone cross-section is shown and bone structure is explored by describing the bone matrix and its composition along with its functions. A brief overview of the different types of bone cells and their relevant functions are highlighted.
Bone structure and function
This topic begins with an introduction to the primary functions of bone. A labelled diagram of the femur bone and bone matrix is included. The different types of osteoprogenitor cells are described (e.g. osteoclasts) and an Electron Microscope (EM) image is shown.
Structure and function of the large intestine (nursing students)
This topic describes the structure and function of the various parts of the large intestine, including the appendix, caecum, colon (ascending, descending, transverse and sigmoid), rectum and anal canal. The descriptions for each of the above parts are accompanied by diagrams.
Bone structure and function
This topic begins with the primary functions of bone and explores its structure in detail, showcasing anatomical images of the femur as an example. A diagrammatical overview of a bone cross-section is shown and bone structure is further explored by describing the bone matrix and its composition in detail along with its various functions. The different types of bone cells and their relevant functions are highlighted with diagrams and an electron micrograph (osteoprogenitors, osteoblasts and osteo
Structure and function of the large intestine (medical students)
This topic begins with a diagrammatic overview of the gastrointestinal (GI) tract with particular relevance to the structure and function of the large intestine. The topic then breaks down into the structure and function of the various parts of the large intestine, including the appendix, caecum, colon (ascending, descending, transverse and sigmoid), rectum and anal canal. The descriptions for each of the above parts are accompanied by diagrams and histological images.
Renal function diuretics
This topic describes the various drugs that affect renal function and introduces diuretics. Diuretics are explored in more detail, specifically the mechanism of action and the different types, including examples.
Integrals, arc length + average value of a function
This video discusses how to calculate arc length and the average value of a function. Several examples are presented to illustrate the ideas which are seen in university mathematics.
Measuring rumen pH and temperature by an indwelling and wireless data transmitting unit and applicat
lfz Raumberg-Gumpenstein. Scientific Article. Austria. 2009
Function Tables and Function Rules
Learn about function tables and how to use them to find rules and equations. The example uses a linear word problem and walks the viewer through setting up a table and generating the formula or rule.
18.735 Double Affine Hecke Algebras in Representation Theory, Combinatorics, Geometry, and Mathemati
Double affine Hecke algebras (DAHA), also called Cherednik algebras, and their representations appear in many contexts: integrable systems (Calogero-Moser and Ruijsenaars models), algebraic geometry (Hilbert schemes), orthogonal polynomials, Lie theory, quantum groups, etc. In this course we will review the basic theory of DAHA and their representations, emphasizing their connections with other subjects and open problems.
Graph of the Sine Function
Using the unit circle definition of the sine function to make a graph of it. In an easy conversational tone, the instructor uses the computer screen as his 'blackboard' and different colors to emphasis his points. For high school students.
Muscular System Structure and Function
An overview of the main structures of the Muscular system. PowerPoint style video-easy to take notes from. (7:18)
Muscle Structure and Function
Visit KMSZone.com for more! And here's the last animation done during high school, also the first 'real' one for biology. It explains the details of muscle structure and function.
Plant Development: Cell Structure and Function
Professor George Wolfe discusses cell structure and function in this video from Thinkwell's online Biology series. This video uses lecture format and a whiteboard to aid in explanations. Run time 11:07.
Function Machine (Input, Output) - A Virtual Manipulative
This virtual manipulative is designed to teach the concept of a function by allowing you to experiment with various functions.
Observe the output of a function by dragging numbers from the top left corner to the IN chute of the function machine. The function machine will process the number and produce an output value.
-Make a guess what function the machine is using by observing the output.
-Use your guess to decide what the remaining entries of the table shoul
Function Transformations – A Virtual Manipulative
Function Transformations – Explore how simple transformations affect the graph of a function. There are more instructions to the right of the manipulative.