MECH 221 - Materials Science

From TMG
(Difference between revisions)
Jump to: navigation, search
Line 7: Line 7:
 
<!--<font color=darkred><font size=+4> If you are taking this course, please send me an e-mail (<font color="#3333FF">mmedraj[AT]encs.concordia.ca</font>) so that I add you to the course mailing-list. This way, you will be kept informed regarding this course. Do not forget to write "<u>mech221-2011</u>" in the subject line of your email</font></font>-->
 
<!--<font color=darkred><font size=+4> If you are taking this course, please send me an e-mail (<font color="#3333FF">mmedraj[AT]encs.concordia.ca</font>) so that I add you to the course mailing-list. This way, you will be kept informed regarding this course. Do not forget to write "<u>mech221-2011</u>" in the subject line of your email</font></font>-->
  
<font color=red><font size=+5> The midterm is on Friday October 28<sup>th</sup> during the class</font></font>
+
* <font color=red><font size=+5> The midterm is on Friday October 28<sup>th</sup> during the class</font></font>
The final exam will be on December 12<sup>th</sup> from 14:00 to 17:00.
+
* The final exam will be on December 12<sup>th</sup> from 14:00 to 17:00.
 
</div>  
 
</div>  
 
</div>
 
</div>

Revision as of 19:37, 14 October 2011

This page is about MECH 221 - a course taught by Dr. Medraj
MECH 221's Announcements
  • The midterm is on Friday October 28th during the class
  • The final exam will be on December 12th from 14:00 to 17:00.
Additional Information


The objective of this course is to provide students with a basic understanding into the structure, behaviour and properties of the typical, common engineering materials - metals, ceramics, polymers and composites and the methods of observing, measuring and interpreting these properties. It covers the following topics: Relationships between properties and internal structure, atomic bonding; molecular, crystalline and amorphous structures, crystalline imperfections and mechanisms of structural change. Microstructures and their development from phase diagrams. Structures and mechanical properties of polymers and ceramics. Thermal, optical, and magnetic properties of materials. Lectures: three hours per week. For more details please see the course outline.

Contents

Class Info


Lecture Notes

The lecture notes are not complete. You need to come to class to fill in the gaps and to gather the appropriate information.


Assignments & Tutorial Problems

The third In-Tutorial Exercise will take place on Friday October 21st.

Sample practice questions will be posted here. Solutions will be discussed during the tutorials. They will NOT be marked.

These questions will be used as the basis for the In-Tutorial Problems which will take place every 2nd tutorial. They are worth 15% total.






Class Pictures

Personal tools
Namespaces
Variants
Actions
Navigation
Group Navigation
Teaching
Intranet
Toolbox