Add to ORKGThis activity is concerned with crystals, the basic building units that make up rocks and minerals. Students construct a model of the silicon-oxygen tetrahedron and discover that the smallest whole unit that could form a unique crystal is called a unit cell. They learn that a unit cell would have all the properties of a large crystal such as a diamond, but would be only molecular size (submicroscopic). If a crystal starts to form from a slowly cooling magma or from a drying up pool of salty sea water, unit cells add themselves one on top of another in order to develop the large crystals we can see and handle. Educational levels: High school, Middle school
In this activity, students observe the process of mineral crystallization under a microscope and ans...
Most materials found in nature have their atoms arranged in a regular and repeated pattern known as ...
This thesis represents an effort to understand the factors that drive large unitcelled intermetallic...
Module Description:This module was created by the Center for Nan...
When learning about the particulate nature of matter (PNM), students tend to attribute the same prop...
This educational review postulates the importance of maintaining an adequate level of crystallograph...
This educational review postulates the importance of maintaining an adequate level of crystallograph...
Tetrahedral building blocks are immensely important in inorganic materials. The structure of ice is ...
Tetrahedral building blocks are immensely important in inorganic materials. The structure of ice is ...
This activity can be used as the introduction for a unit on mineral or crystal structure. It require...
These lab activities are designed to exhibit how crystals grow. Students will distinguish living fro...
The beauty of many of the crystalline solids has attracted man\u27s attention from the earliest time...
The beauty of many of the crystalline solids has attracted man\u27s attention from the earliest time...
The computational design of new and interesting inorganic materials is still an ongoing challenge. ...
Crystalline minerals have many interesting properties, and many of these properties have useful appl...
In this activity, students observe the process of mineral crystallization under a microscope and ans...
Most materials found in nature have their atoms arranged in a regular and repeated pattern known as ...
This thesis represents an effort to understand the factors that drive large unitcelled intermetallic...
Module Description:This module was created by the Center for Nan...
When learning about the particulate nature of matter (PNM), students tend to attribute the same prop...
This educational review postulates the importance of maintaining an adequate level of crystallograph...
This educational review postulates the importance of maintaining an adequate level of crystallograph...
Tetrahedral building blocks are immensely important in inorganic materials. The structure of ice is ...
Tetrahedral building blocks are immensely important in inorganic materials. The structure of ice is ...
This activity can be used as the introduction for a unit on mineral or crystal structure. It require...
These lab activities are designed to exhibit how crystals grow. Students will distinguish living fro...
The beauty of many of the crystalline solids has attracted man\u27s attention from the earliest time...
The beauty of many of the crystalline solids has attracted man\u27s attention from the earliest time...
The computational design of new and interesting inorganic materials is still an ongoing challenge. ...
Crystalline minerals have many interesting properties, and many of these properties have useful appl...
In this activity, students observe the process of mineral crystallization under a microscope and ans...
Most materials found in nature have their atoms arranged in a regular and repeated pattern known as ...
This thesis represents an effort to understand the factors that drive large unitcelled intermetallic...