Ceramic Forces

Explore what happens when a force is exerted on a ceramic material.

Run Model

Add to my backpack

WARNING: Your data will not be saved. Please view the requirements below before launching this activity.

Attention

Your data will not be saved.

Requirements

 

Explore what happens when a force is exerted on a ceramic material. There are many different types of materials. Each material has a particular molecular structure, which is responsible for the material's mechanical properties. The molecular structure of each material affects how it responds to an applied force at the macroscopic level.

Run Model

WARNING: Your data will not be saved. Please view the requirements below before launching this activity.

Copyright
© Copyright The Concord Consortium

Record Link
<a href="">The Concord Consortium. Ceramic Forces. Concord: The Concord Consortium, 2013, May 21.</a>

AIP
Ceramic Forces (The Concord Consortium, Concord, 2013, May 21), WWW Document, (https://concord.org/).

AJP
Ceramic Forces (The Concord Consortium, Concord, 2013, May 21), WWW Document, (https://concord.org/).

APA
Ceramic Forces. (2013, May 21). Retrieved 2017, June 24, from The Concord Consortium: https://concord.org/

Disclaimer: The Concord Consortium offers citation styles as a guide only. We cannot offer interpretations about citations as this is an automated procedure.

Requirements

This activity runs entirely in a Web browser. Preferred browsers are: Google Chrome (versions 30 and above), Safari (versions 7 and above), Firefox (version 30 and above), Internet Explorer (version 10 or higher), and Microsoft's Edge.

 

Related Resources

Comments

Leave a comment

Share on Facebook

This resource is a part of the Concord Consortium's VISUAL project.

Grade Level
Middle School, High School, Higher Education
Subject
Chemistry, Engineering, Physics
Focus Area
Modeling and Simulation
Rating
0
Rate this resource.

Log In

Don't have a profile?

Create a profile and...

Create your profile now »

Loading...