Search result for Materials science Online Courses & Certifications
FollowFilter ![]()
Filter ![]()
Showing 249 courses
By Category ![]()
By Subject![]()
By Language![]()
By Duration![]()
By Price![]()
Get Course Alerts by Email
Microstructural Evolution of Materials Part 2: Defects and Diffusion
by Juejun Hu , Jessica Sandland- 0.0
-
![]()
![]()
![]()
![]()
![]()
5 Weeks
Discover the principles of point defect evolution that explain materials science phenomena. The course explains how materials develop different microstructure based on different processing techniques, and it relates these microstructures to the properties of the material. Microstructural Evolution of Materials is intended for engineering and science students and professionals with an interest in materials statistics, kinetics, and microstructural transformations....
$49
Materials Science: 10 Things Every Engineer Should Know
by James Shackelford- 4.7
-
![]()
![]()
![]()
![]()
![]()
Approx. 9 hours to complete
We explore “10 things” that range from the menu of materials available to engineers in their profession to the many mechanical and electrical properties of materials important to their use in various engineering fields. Shackelford, Introduction to Materials Science for Engineers, Eighth Edition, Pearson Prentice-Hall, Upper Course Overview / The Menu of Materials / Point Defects Explain Solid State Diffusion...
Material Behavior
by Thomas H. Sanders, Jr.- 4.7
-
![]()
![]()
![]()
![]()
![]()
Approx. 25 hours to complete
This is the first of three Coursera courses that mirror the Introduction to Materials Science class that is taken by most engineering undergrads at Georgia Tech. This first section covers the fundamentals of materials science including atomic structure and bonding, crystal structure, atomic and microscopic defects, and noncrystalline materials such as glasses, rubbers, and polymers....
Material Processing
by Thomas H. Sanders, Jr.- 4.8
-
![]()
![]()
![]()
![]()
![]()
Approx. 12 hours to complete
This is the second of three Coursera courses that mirror the Introduction to Materials Science class that is taken by most engineering undergrads at Georgia Tech. This first section covers the fundamentals of materials science including atomic structure and bonding, crystal structure, atomic and microscopic defects, and noncrystalline materials such as glasses, rubbers, and polymers....
Introduction to Computational Materials Design
by Yoshitada MORIKAWA , Tamio OGUCHI , Masaaki Geshi- 0.0
-
![]()
![]()
![]()
![]()
![]()
5 Weeks
The purpose of this course is to analyze the present status and possibilities of computational materials design and to implement a new paradigm of material science by learning basic cutting-edge computational methods and designing materials using quantum simulation program codes. Material science plays a central role in the development of technical foundations even in the 21st century....
$139
Astronomy: Exploring Time and Space
by Chris ImpeyTop Instructor- 4.8
-
![]()
![]()
![]()
![]()
![]()
Approx. 43 hours to complete
Impey's Science Learning Survey Invitation Science and History Science and History Introduction Greek Science Supplementary materials Science and History Quiz A Science and History Quiz B Supplementary materials Supplementary materials Supplementary materials Supplementary materials Supplementary materials Supplementary materials Supplementary materials Supplementary materials Supplementary materials...
Science in Art: The Chemistry of Art Materials and Conservation
by Henry DePhillips- 0.0
-
![]()
![]()
![]()
![]()
![]()
6 Weeks
Conservation science further notes that all materials deteriorate over time, and then asks a follow-up question: What physical interventions are possible to maintain, preserve and protect the work as the artist intended? A knowledge of materials Understanding of materials used to create art Science behind human perception of art...
$50
Related searches
Tinkering Fundamentals: Circuits
by Mike Petrich , Karen Wilkinson , Luigi Anzivino- 4.7
-
![]()
![]()
![]()
![]()
![]()
Approx. 6 hours to complete
Tinkering has recently been introduced into the educational field as a potential driver of creativity, excitement, and innovation in science learning. We’ll also share some guiding principles and learning indicators we’ve developed that can help you integrate tinkering into your elementary and middle-school science program. REQUIRED COURSE MATERIALS You will need several tools and materials to do weekly course activities....
Cement Chemistry and Sustainable Cementitious Materials
by Karen Scrivener , Ruben Snellings , Aurélie Favier , Xuerun Li- 0.0
-
![]()
![]()
![]()
![]()
![]()
6 Weeks
Because the course is designed for beginning students, it’s not necessary to have a cement background, however a bachelor degree in Materials Science or knowledge in chemistry, physics and crystallography will help. The science and utility behind Supplementary Cementitious Materials in concrete technology...
$199
Tinkering Fundamentals: Motion and Mechanisms
by Mike Petrich , Karen Wilkinson , Luigi Anzivino- 5
-
![]()
![]()
![]()
![]()
![]()
Approx. 6 hours to complete
Learners follow their own path to understanding by investigating tools and materials and exploring questions that interest them. We’ll also share some guiding principles and learning indicators we’ve developed that can help you integrate tinkering into your elementary and middle-school science program. This project was funded by generous support from Overdeck Family Foundation and the National Science Foundation....
Previous
