A Legacy of W.K. Kellogg

About eLearning's Multimedia Learning Objects Repository website

This website is a collection of interactive multimedia and animations that can be used to enhance a course and bring abstractions to life. The learning objects have been developed in collaboration with faculty on campus and can be shared across multiple disciplines and other institutions. Use this website to search, browse, and preview all the learning objects that are publicly available in our collection.

How to Use the Learning Objects

Mouse over the project card of the learning object that you would like to use. Click the "view" link to get a preview of the object. When you are ready, copy the URL from the "link" text-box to your course or website.

Interested in Creating Something?

If you are faculty at Cal Poly Pomona who would like to request multimedia development, contact us through our request form or through our CoRe Projects Program.

Browsing: College of Science

February 2, 2018

Liquid - Liquid Extraction

College of Science

Liquid - Liquid Extraction

This simulation demonstrates a liquid-liquid extraction procedure and explores the theory of using multiple extractions to isolate...

Liquid - Liquid Extraction

This simulation demonstrates a liquid-liquid extraction procedure and explores the theory of using multiple extractions to isolate organic compounds from an aqueous reaction mixture.


type: animation

system reqs: Modern Browser with HTML5 Canvas support.

author: Dr. Laurie Starkey

design credits:
Erick Zelaya, Developer
rnBo Choi, Inst. Designer
rnThomas Gaston, Tech. Consultant

March 15, 2017

Thin Layer Chromatography (TLC)

College of Science

Thin Layer Chromatography (TLC)

This tool allows you to explore how TLC works, and to see how varying the solvent polarity affects the TLC results.

Thin Layer Chromatography (TLC)

This tool allows you to explore how TLC works, and to see how varying the solvent polarity affects the TLC results.


type: simulation

system reqs: Modern Browsers

author: Dr. Laurie Starkey

design credits:
Erick Zelaya, Developer
Bo Choi, I.D.
Thomas Gaston, I.D.

January 11, 2016

Making Molecules: Dot Structures

College of Science

Making Molecules: Dot Structures

Practice building Lewis Dot Structures from atoms and ionic compounds from the component ions.

Making Molecules: Dot Structures

Practice building Lewis Dot Structures from atoms and ionic compounds from the component ions.


type: simulation

system reqs: Modern Browsers

author: Jodye Selco

design credits:
Richard Feldman, Developer
Pauline Muljana, Inst. Designer
Tommy Gaston, Inst. Tech.

September 15, 2015

Gene Structures

College of Science

Gene Structures

This tool assist in learning the "parts" that make up a gene in order to facilitate understanding how gene expression is regulated.

Gene Structures

This tool assist in learning the "parts" that make up a gene in order to facilitate understanding how gene expression is regulated.


type: simulation

system reqs: Modern Browsers

author: Andrew Steele

design credits:
Erick Zelaya, Developer
Victoria Bhavsar, Inst. Designer

December 23, 2014

Chemical Kinetics and Equilibrium

College of Science

Chemical Kinetics and Equilibrium

This simulation (containing an interactive data table, graph, and animation) models the time dependence of Chemical Kineti...

Chemical Kinetics and Equilibrium

This simulation (containing an interactive data table, graph, and animation) models the time dependence of Chemical Kinetics, Chemical Equilibrium, and Le Ch√Ętelier's Principle.


type: simulation

system reqs: Modern browsers

author: Dr. Jodye Selco

design credits:
Erick Zelaya, Developer
Bo Choi, Inst. Designer
Pauline Muljana, Inst. Designer

December 3, 2014

Post-translational Modifications

College of Science

Post-translational Modifications

Proteins are made up of different combinations of amino acids. This simulation helps students understand the different enzy...

Post-translational Modifications

Proteins are made up of different combinations of amino acids. This simulation helps students understand the different enzymes responsible for making modifications, reversing modifications, and on which amino acids each modification can occur.


type: simulation

system reqs: Modern browsers

author: Dr. Andrew Steele

design credits:
Erick Zelaya, Developer
Victoria Bhavsar, Inst. Designer