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Amazing Mundo

(Complete Item Description)

Abstract:: The Amazing Mundo is part of OLogy, where kids can collect virtual trading cards and create projects with them. In this interactive comic strip (also available as a printable PDF), kids are challenged to determine the composition of everyday objects.

Subject:: Science and Technology
Grade Level:: Primary
Collection:: American Museum of Natural History

Electronic and Mechanical Properties of Materials, Fall 2007

(Complete Item Description)

Abstract:: Electrical, optical, magnetic, and mechanical properties of metals, semiconductors, ceramics and polymers. Discussion of roles of bonding, structure (crystalline, defect, energy band and microstructure) and composition in influencing and controlling physical properties. Case studies drawn from a variety of applications including semiconductor diodes, optical detectors, sensors, thin films, biomaterials, composites, and cellular materials.

Subject:: Science and Technology
Grade Level:: Post-secondary
Collection:: MIT OpenCourseWare

Elements - Metals, Nonmetals and Metalloids

(Complete Item Description)

Abstract:: This is a lab activity where the students group the given elements as metals, nonmetals or metalloids.

Subject:: Science and Technology
Grade Level:: Secondary
Collection:: Pedagogy in Action (SERC)

Emergent Materials II, Spring 2005

(Complete Item Description)

Abstract:: This course will focus on providing students with the tools needed to practice responsible architecture in a contemporary context. It will familiarize students with the materials currently used in responsible practice, as well as the material properties most relevant to assembly. The course will also introduce students to materials that are untested but hold promise for future usage. Finally, the course will challenge students to refine their understanding of responsible or sustainable design practice by looking at the evolution of those ideas within the field of architecture.

Subject:: Arts
Grade Level:: Post-secondary
Collection:: MIT OpenCourseWare

Fracture and Fatigue, Fall 2003

(Complete Item Description)

Abstract:: Linear elastic and elastic-plastic fracture mechanics. Experimental methods. Microstructural effects on fracture in metals, ceramics, polymers, thin films, biological materials and composites. Toughening mechanisms. Crack growth resistance and creep fracture. Interface fracture mechanics. Fatigue damage and dislocation substructures in single crystals. Stress- and strain-life approach to fatigue. Fatigue crack growth models and mechanisms. Variable amplitude fatigue. Corrosion fatigue. Case studies of fracture and fatigue in structural, bioimplant, and microelectronic components.

Subject:: Science and Technology
Grade Level:: Post-secondary
Collection:: MIT OpenCourseWare

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Hard Cash

(Complete Item Description)

Abstract:: Hard Cash shows coins being sorted and asks the students to describe what metals are used in making coins and why.

Subject:: Science and Technology
Grade Level:: Primary, Secondary
Collection:: Teachers' Domain

Introductory MIT Courses, Chemistry

(Complete Item Description)

Abstract:: Selection of courses to explore Chemistry at MIT.

Subject:: Science and Technology
Grade Level:: Secondary, Post-secondary
Collection:: MIT Highlights for High School

Materials for Biomedical Applications, Spring 2004

(Complete Item Description)

Abstract:: Introduction to the interactions between cells and surfaces of biomaterials. Surface chemistry and physics of selected metals, polymers, and ceramics. Surface characterization methodology. Modification of biomaterials surfaces. Quantitative assays of cell behavior in culture. Biosensors and microarrays. Bulk properties of implants. Acute and chronic response to implanted biomaterials. Topics in biomimetics, drug delivery, and tissue engineering. Laboratory demonstrations.

Subject:: Science and Technology
Grade Level:: Post-secondary
Collection:: MIT OpenCourseWare

Materials in Human Experience, Spring 2004

(Complete Item Description)

Abstract:: Examines the ways in which people in ancient and contemporary societies have selected, evaluated, and used materials of nature, transforming them to objects of material culture. Some examples: glass in ancient Egypt and Rome; powerful metals in the Inka empire; rubber processing in ancient Mexico. Explores ideological and aesthetic criteria often influential in materials development. Laboratory/workshop sessions provide hands-on experience with materials discussed in class. Subject complements 3.091. Enrollment may be limited.

Subject:: Science and Technology
Grade Level:: Post-secondary
Collection:: MIT OpenCourseWare

"Mechanical Behavior of Materials, Spring 2008"

(Complete Item Description)

Abstract:: " Here we will learn about the mechanical behavior of structures and materials, from the continuum description of properties to the atomistic and molecular mechanisms that confer those properties to all materials. We will cover elastic and plastic deformation, creep, fracture and fatigue of materials including crystalline and amorphous metals, semiconductors, ceramics, and (bio)polymers, and will focus on the design and processing of materials from the atomic to the macroscale to achieve desired mechanical behavior. We will cover special topics in mechanical behavior for material systems of your choice, with reference to current research and publications."

Subject:: Science and Technology
Grade Level:: Post-secondary
Collection:: MIT OpenCourseWare

Mechanical Properties of Materials, Spring 2004

(Complete Item Description)

Abstract:: Phenomenology of mechanical behavior of materials at the macroscopic level. Relationship of mechanical behavior to material structure and mechanisms of deformation and failure. Topics include: elasticity, viscoelasticity, plasticity, creep, fracture, and fatigue. Case studies and examples drawn from a variety of classes of materials including: metals, ceramics, polymers, thin films, composites, and cellular materials.

Subject:: Science and Technology
Grade Level:: Post-secondary
Collection:: MIT OpenCourseWare

Mechanics of Materials, Fall 1999

(Complete Item Description)

Abstract:: Overview of mechanical properties of ceramics, metals, and polymers, emphasizing the role of processing and microstructure in controlling these properties. Basic topics in mechanics of materials including: continuum stress and strain, truss forces, torsion of a circular shaft and beam bending. Design of engineering structures from a materials point of view.

Subject:: Science and Technology
Grade Level:: Post-secondary
Collection:: MIT OpenCourseWare

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Non-Ferrous Metals - Quiz

(Complete Item Description)

Abstract:: A six question quiz about this aspect of Engineering

Subject:: Science and Technology
Grade Level:: Secondary
Collection:: Scoilnet

Our Class Band

(Complete Item Description)

Abstract:: In this lesson students will play percussion instruments that have been divided into four groups: Drums, Woods, Metals and Shakers/Scrapers. They will perform a song sung to the tune of 'Old MacDonald had a Farm' and perform the instruments of these groups.

Subject:: Arts
Grade Level:: Primary
Collection:: LEARN NC Lesson Plans

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Strange Matter

(Complete Item Description)

Abstract:: This site helps students discover materials science and the secrets of everyday stuff. Find out what happens when you heat silicon, iron, or carbon. Learn how materials science helps fight cancer, make buildings safer, improve equipment and the environment. Activities in the 60-page teachers guide challenge students to examine their material world in a different way -- through the eyes of materials scientists.

Subject:: Science and Technology
Grade Level:: Primary
Collection:: Materials Research Society

The molecular world

(Complete Item Description)

Abstract:: From diamonds to dynamite everything involves a chemical reaction. This unit introduces you to the concepts and principles that underpin chemistry at the molecular level.Everyday experiences are used to help you to understand the more complex issues.

Subject:: Science and Technology
Grade Level:: Post-secondary
Collection:: Open University OpenLearn

Browse: Keyword: Metals

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Amazing Mundo

Electronic and Mechanical Properties of Materials, Fall 2007

Elements - Metals, Nonmetals and Metalloids

Emergent Materials II, Spring 2005

Fracture and Fatigue, Fall 2003

Hard Cash

Introductory MIT Courses, Chemistry

Materials for Biomedical Applications, Spring 2004

Materials in Human Experience, Spring 2004

"Mechanical Behavior of Materials, Spring 2008"

Mechanical Properties of Materials, Spring 2004

Mechanics of Materials, Fall 1999

Non-Ferrous Metals - Quiz

Our Class Band

Strange Matter

The molecular world

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