Search Materials
Sort materials by
Search Materials
Get more information on the MERLOT Editors' Choice Award in a new window.
Get more information on the MERLOT Classics Award in a new window.
Get more information on the JOLT Award in a new window.
Go to Search Page
Go to Partner Benefits
View material results for all categories
Please enter a Bookmark title
Please limit Bookmark title to 65 characters
Please enter a description
Please limit Bookmark title to 4000 characters
Please limit a note about this material to 2048 characters
A Bookmark with this title already existed.
Search all MERLOT
Select to go to your profile
Select to go to your workspace
Select to go to your Dashboard Report
Select to go to your Content Builder
Select to log out
Search Terms
Enter username
Enter password
Please give at least one keyword of at least three characters for the search to work with. The more keywords you give, the better the search will work for you.
Select OK to launch help window
Cancel help

MERLOT II

Advanced Search





    

Refine Your Search:

 
Materials 11 - 20 shown of 55 results

2.71 Optics (MIT)

This course provides an introduction to optical science with elementary engineering applications. Topics covered in... see more
Material Type: Online Course
Author: Prof. George Barbastathis, Prof. Colin Sheppard, Dr. Se Baek Oh
Date Added: Aug 06, 2014 Date Modified: Aug 06, 2014
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "2.71 Optics (MIT)"
User Rating for material titled "2.71 Optics (MIT)"
Member Comments for material titled "2.71 Optics (MIT)"
Bookmark Collections for material titled "2.71 Optics (MIT)"
Course ePortfolios for material titled "2.71 Optics (MIT)"
Learning Exercises for material titled "2.71 Optics (MIT)"
Accessibility Info for material titled "2.71 Optics (MIT)"
eTextbook Reviews for material titled "2.71 Optics (MIT)"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

2.997 Direct Solar/Thermal to Electrical Energy Conversion Technologies (MIT)

This course introduces principles and technologies for converting heat into electricity via solid-state devices. The first... see more
Material Type: Online Course
Author: Prof. Gang Chen
Date Added: Aug 06, 2014 Date Modified: Aug 06, 2014
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "2.997 Direct Solar/Thermal to Electrical Energy Conversion Technologies (MIT)"
User Rating for material titled "2.997 Direct Solar/Thermal to Electrical Energy Conversion Technologies (MIT)"
Member Comments for material titled "2.997 Direct Solar/Thermal to Electrical Energy Conversion Technologies (MIT)"
Bookmark Collections for material titled "2.997 Direct Solar/Thermal to Electrical Energy Conversion Technologies (MIT)"
Course ePortfolios for material titled "2.997 Direct Solar/Thermal to Electrical Energy Conversion Technologies (MIT)"
Learning Exercises for material titled "2.997 Direct Solar/Thermal to Electrical Energy Conversion Technologies (MIT)"
Accessibility Info for material titled "2.997 Direct Solar/Thermal to Electrical Energy Conversion Technologies (MIT)"
eTextbook Reviews for material titled "2.997 Direct Solar/Thermal to Electrical Energy Conversion Technologies (MIT)"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

3.024 Electronic, Optical and Magnetic Properties of Materials (MIT)

This course describes how electronic, optical and magnetic properties of materials originate from their electronic and... see more
Material Type: Online Course
Author: Prof. Polina Anikeeva, Prof. Geoffrey Beach, Niels Holten-Andersen
Date Added: Aug 06, 2014 Date Modified: Aug 06, 2014
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "3.024 Electronic, Optical and Magnetic Properties of Materials (MIT)"
User Rating for material titled "3.024 Electronic, Optical and Magnetic Properties of Materials (MIT)"
Member Comments for material titled "3.024 Electronic, Optical and Magnetic Properties of Materials (MIT)"
Bookmark Collections for material titled "3.024 Electronic, Optical and Magnetic Properties of Materials (MIT)"
Course ePortfolios for material titled "3.024 Electronic, Optical and Magnetic Properties of Materials (MIT)"
Learning Exercises for material titled "3.024 Electronic, Optical and Magnetic Properties of Materials (MIT)"
Accessibility Info for material titled "3.024 Electronic, Optical and Magnetic Properties of Materials (MIT)"
eTextbook Reviews for material titled "3.024 Electronic, Optical and Magnetic Properties of Materials (MIT)"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

7Stones Shockwave Simulation of Introductory Quantum Mechanics

A review of basic quantum theory, with shockwave simulations.
Material Type: Simulation
Author: Geoffrey Dixon
Date Added: Apr 26, 2001 Date Modified: Apr 26, 2001
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "7Stones Shockwave Simulation of Introductory Quantum Mechanics"
User Rating for material titled "7Stones Shockwave Simulation of Introductory Quantum Mechanics"
Member Comments for material titled "7Stones Shockwave Simulation of Introductory Quantum Mechanics"
Bookmark Collections for material titled "7Stones Shockwave Simulation of Introductory Quantum Mechanics"
Course ePortfolios for material titled "7Stones Shockwave Simulation of Introductory Quantum Mechanics"
Learning Exercises for material titled "7Stones Shockwave Simulation of Introductory Quantum Mechanics"
Accessibility Info for material titled "7Stones Shockwave Simulation of Introductory Quantum Mechanics"
eTextbook Reviews for material titled "7Stones Shockwave Simulation of Introductory Quantum Mechanics"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

7Stones Uncertainty Principle Shockwave Simulation

A shockwave simulation of the uncertainty principle where the user picks the value for the uncertainty in momentum. The... see more
Material Type: Simulation
Author: Geoffrey Dixon
Date Added: Apr 25, 2001 Date Modified: Apr 25, 2001
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "7Stones Uncertainty Principle Shockwave Simulation"
User Rating for material titled "7Stones Uncertainty Principle Shockwave Simulation"
Member Comments for material titled "7Stones Uncertainty Principle Shockwave Simulation"
Bookmark Collections for material titled "7Stones Uncertainty Principle Shockwave Simulation"
Course ePortfolios for material titled "7Stones Uncertainty Principle Shockwave Simulation"
Learning Exercises for material titled "7Stones Uncertainty Principle Shockwave Simulation"
Accessibility Info for material titled "7Stones Uncertainty Principle Shockwave Simulation"
eTextbook Reviews for material titled "7Stones Uncertainty Principle Shockwave Simulation"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Atomic Orbitals

Electrons are distributed around an atom according to probability density distributions. Visitors can use ... see more
Material Type: Simulation
Author: Michael Davidson
Date Added: Feb 10, 2001 Date Modified: Feb 10, 2001
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Atomic Orbitals"
User Rating for material titled "Atomic Orbitals"
Member Comments for material titled "Atomic Orbitals"
Bookmark Collections for material titled "Atomic Orbitals"
Course ePortfolios for material titled "Atomic Orbitals"
Learning Exercises for material titled "Atomic Orbitals"
Accessibility Info for material titled "Atomic Orbitals"
eTextbook Reviews for material titled "Atomic Orbitals"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review
Very good quality; in queue to be peer reviewed
avg: 5 rating

User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Cogent Physics

Cogent Physics is a fully peer reviewed, open access journal with a mission to help researchers communicate with a global... see more
Material Type: Open Journal-Article
Author: Rajeev Ahaja (Editor-in-Chief)
Date Added: Jan 02, 2016 Date Modified: Jan 02, 2016
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Cogent Physics"
User Rating for material titled "Cogent Physics"
Member Comments for material titled "Cogent Physics"
Bookmark Collections for material titled "Cogent Physics"
Course ePortfolios for material titled "Cogent Physics"
Learning Exercises for material titled "Cogent Physics"
Accessibility Info for material titled "Cogent Physics"
eTextbook Reviews for material titled "Cogent Physics"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Eigenvectors and Eigenvalues

Allows user to choose an energy for a quantum-mechanical system described by a user-defined potential energy function. ... see more
Material Type: Simulation
Author: Wolfgang Christian
Date Added: May 23, 2000 Date Modified: Jun 04, 2001
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Eigenvectors and Eigenvalues"
User Rating for material titled "Eigenvectors and Eigenvalues"
Member Comments for material titled "Eigenvectors and Eigenvalues"
Bookmark Collections for material titled "Eigenvectors and Eigenvalues"
Course ePortfolios for material titled "Eigenvectors and Eigenvalues"
Learning Exercises for material titled "Eigenvectors and Eigenvalues"
Accessibility Info for material titled "Eigenvectors and Eigenvalues"
eTextbook Reviews for material titled "Eigenvectors and Eigenvalues"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review
Very good quality; in queue to be peer reviewed
avg: 5 rating

User review 5 average rating
User Rating 5 user rating
Discussion (1 Comment)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (2)
Accessibility Info (none)

Electron Excitation and Emission

Examine how electrons in an atom are excited into higher energy states by photons of varying wavelengths.... see more
Material Type: Simulation
Author: Michael Davidson
Date Added: May 21, 2001 Date Modified: Jan 06, 2016
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Electron Excitation and Emission"
User Rating for material titled "Electron Excitation and Emission"
Member Comments for material titled "Electron Excitation and Emission"
Bookmark Collections for material titled "Electron Excitation and Emission"
Course ePortfolios for material titled "Electron Excitation and Emission"
Learning Exercises for material titled "Electron Excitation and Emission"
Accessibility Info for material titled "Electron Excitation and Emission"
eTextbook Reviews for material titled "Electron Excitation and Emission"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Fundamentals of Photovoltaics

In this course, students learn about the fundamentals of photoelectric conversion: charge excitation, conduction, separation,... see more
Material Type: Online Course
Author: Prof. Tonio Buonassisi
Date Added: Aug 06, 2014 Date Modified: Feb 11, 2015
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time.
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Fundamentals of Photovoltaics"
User Rating for material titled "Fundamentals of Photovoltaics"
Member Comments for material titled "Fundamentals of Photovoltaics"
Bookmark Collections for material titled "Fundamentals of Photovoltaics"
Course ePortfolios for material titled "Fundamentals of Photovoltaics"
Learning Exercises for material titled "Fundamentals of Photovoltaics"
Accessibility Info for material titled "Fundamentals of Photovoltaics"
eTextbook Reviews for material titled "Fundamentals of Photovoltaics"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)
RSS

Results page 2 of 6
Left Arrow  Prev 1  2  3  4  5  6  Next Next Arrow
Jump to page