Blast Load Simulation of Floating Barricade System to Protect Anchored Vessels
Simulation created using the CFD code named CEBAM (Computational Explosion And Blast Assessment Model). CEBAM is capable of simulating blast loads from high explosive, vapor clouds, and bursting vessels. Floating barricade system used to increase standoff and hence reduce blast loading on anchored vessels. Research performed by Risknology, Inc.
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Blood Vessels Help Tumors Grow
In this video segment, adapted from NOVA, Dr. Judah Folkman uses the scientific method to discover how cancer cells induce the formation of new blood vessels, which in turn nourish those cancer cells.
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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.
Author(s): TALAT,Åke Oma, Hydro Aluminium Structures, Karmoy

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TALAT Lecture 2105.01: Case Study on Pressure Vessels
This lecture helps to create an understanding of how material properties, costs of materials and of their fabrication, required product life, and product liability interact in different ways depending on the product. Some knowledge of fabricating processes and the significance of such factors as fatigue, fracture toughness and environmental performance on material selection is assumed.
Author(s): TALAT,Roy Woodward, Aluminium Federation, Birmingh

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Lymphatic System
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Lymphatic System
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Zebrafish circulatory vessels
Tail section of Danio where blood flows from the dorsal vessel (moves blood to the tail) to the ventral vessel (returns blood to the head).
Author(s): Mildred Hoover,Nancy Pelaez

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Zebrafish blood vessels
Blood flow though the tail section of Danio - note that blood flows toward the tail through a dorsal vessel while blood flows toward the head through a ventral vessel.
Author(s): Mildred Hoover,Nancy Pelaez

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Zebrafish blood cell circulation in vessels
Note that blood flows toward the tail through a dorsal vessel while blood flows toward the head through a ventral vessel (you can see blood flow laterally through developing capillaries).
Author(s): Mildred Hoover,Nancy Pelaez

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2008 Hounsfield Lecture - Normalizing tumour vessels and microenvironment to treat cancer: From the
Given by Dr Rakesh K Jain
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Zebrafish blood vessels allow blood to circulate
Tail section of Danio where blood flows from the dorsal vessel (moves blood to the tail) to the ventral vessel (returns blood to the head).
Author(s): Mildred Hoover,Nancy Pelaez

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5.3 Blood vessels: veins, arteries and capillaries
We all know that the heart is very important but what exactly does the heart do? Why is the blood so important? What functions do the lungs perform? In this unit, we will try to provide at least a basic understanding so we can answer these questions and begin to understand why knowing about the heart is important for all sports people. Before that we will take a look at the human body.
Author(s): The Open University

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Except for third party materials and otherwise stated (see http://www.open.ac.uk/conditions terms and conditions), this content is made available under a http://creativecommons.org/licenses/by-nc-sa/2

Histology, lymphatic gland x4, (direct/above view)
Histology, lymphatic gland 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

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Histology, lymphatic gland x10, (direct/above view)
Histology, lymphatic gland 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

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Rat anatomy, Either male or female, Pointer to right blood vessels lying on muscle bed of throat, (s
Rat anatomy, Either male or female, Pointer to right blood vessels lying on muscle bed of throat, (side/lateral view)
Author(s): Megan Quentin-Baxter, Newcastle University

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Rat anatomy, Either male or female, Trachea, thyroid & blood vessels of throat insitu 1, (direct/abo
Rat anatomy, Either male or female, Trachea, thyroid & blood vessels of throat insitu 1, (direct/above view)
Author(s): Megan Quentin-Baxter, Newcastle University

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Rat anatomy, Either male or female, Pointer to right blood vessels lying on muscle bed of throat 1,
Rat anatomy, Either male or female, Pointer to right blood vessels lying on muscle bed of throat 1, (direct/above view)
Author(s): Megan Quentin-Baxter, Newcastle University

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Rat anatomy, Either male or female, Pointers lifting left blood vessels (carotid artery, anterior ve
Rat anatomy, Either male or female, Pointers lifting left blood vessels (carotid artery, anterior vena cava) 1, (direct/above view)
Author(s): Megan Quentin-Baxter, Newcastle University

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Rat anatomy, Either male or female, Trachea, thyroid & blood vessels of throat insitu 1, (direct/abo
Rat anatomy, Either male or female, Trachea, thyroid & blood vessels of throat insitu 1, (direct/above view)
Author(s): Megan Quentin-Baxter, Newcastle University

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Rat anatomy, Male, Pointer to spermatic blood vessels, (side/lateral view)
Rat anatomy, Male, Pointer to spermatic blood vessels, (side/lateral 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

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