This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of wave properties. Students will learn how light waves interact with matter. The activity is "analogous to light traveling through optical media having different indices of refraction (densities)." Teacher Preparation Guides, Student Guides, and Next Generation Science Standards applicable to the lesson are included
This 6-page resource, from the STEM Guitar Project, is an activity on the physics of music waves. &q...
Abstract: Nanophotonics has emerged as a new and important field of study, not only in research, bu...
This lab activity, presented by John Chamberlain, teaches students to measure the power transmitted ...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of wav...
This exercise, presented by the National Nanotechnology Infrastructure Network, covers the concept o...
Participants will have the opportunity to participate in two labs aligned with the Next Generation S...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of beh...
Thesis (Ph. D.)--University of Washington, 1999The research described in this dissertation is part o...
This lab, presented by the National Nanotechnology Infrastructure Network, allows students to "...
This resource from Glenbrook High School in Glenview, Illinois explains and illustrates the nature, ...
This demonstration is intended to help students better understand the electromagnetic spectrum. At t...
This video is part of a series from Laser-Tec that introduces learners to geometrical optic...
Research has shown that students have tremendous difficulties developing a qualitative understanding...
Much of the literature contributing to physics instructors’ knowledge of student ideas (KSI) reports...
This undergraduate textbook on the physics of wave motion in optics and acoustics avoids presenting ...
This 6-page resource, from the STEM Guitar Project, is an activity on the physics of music waves. &q...
Abstract: Nanophotonics has emerged as a new and important field of study, not only in research, bu...
This lab activity, presented by John Chamberlain, teaches students to measure the power transmitted ...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of wav...
This exercise, presented by the National Nanotechnology Infrastructure Network, covers the concept o...
Participants will have the opportunity to participate in two labs aligned with the Next Generation S...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of beh...
Thesis (Ph. D.)--University of Washington, 1999The research described in this dissertation is part o...
This lab, presented by the National Nanotechnology Infrastructure Network, allows students to "...
This resource from Glenbrook High School in Glenview, Illinois explains and illustrates the nature, ...
This demonstration is intended to help students better understand the electromagnetic spectrum. At t...
This video is part of a series from Laser-Tec that introduces learners to geometrical optic...
Research has shown that students have tremendous difficulties developing a qualitative understanding...
Much of the literature contributing to physics instructors’ knowledge of student ideas (KSI) reports...
This undergraduate textbook on the physics of wave motion in optics and acoustics avoids presenting ...
This 6-page resource, from the STEM Guitar Project, is an activity on the physics of music waves. &q...
Abstract: Nanophotonics has emerged as a new and important field of study, not only in research, bu...
This lab activity, presented by John Chamberlain, teaches students to measure the power transmitted ...