University of Virginia
Uva Virtual Lab: Magnetic Induction (Real World)
Compare and contrast the series of video clips illustrating magnetism induction in the real world versus x-ray vision.
University of Virginia
Miller Center at Uva: Presidential Speeches: Lyndon Johnson: Decision Not to Seek Reelection
A comprehensive overview on Lyndon B. Johnson's decision not to seek reelection after the end of his administration. [40:49]
University of Virginia
Miller Center at Uva: Presidential Recordings Program: Watergate Collection
This website provides a selection of transcripts related to Watergate. Most are from the meeting tapes and the sound quality is often poor. Earlier versions of a number of these have been previously published either by the various...
University of Virginia
Uva Virtual Lab: Capacitors and Resistors in Parallel
In this simulation, the cell will be used to charge a capacitor. The capacitor will then be used to operate two light bulbs until the capacitor is discharged.
University of Virginia
Uva Virtual Lab: Quantum Dot Cellular Automata (Qca) Memory Cells
In computers of the future, transistors may be replaced by assemblies of quantum dots called "Quantum-dot Cellular Automata." This is a description of how QCA's can store and move information.
University of Virginia
Uva Virtual Lab: Photolithography
Find a description of the modern process of photolithography. This is the method by which micro-photographic patterns are transferred onto silicon wafers to build integrated circuits.
University of Virginia
Uva Virtual Lab: One Battery Cell
What is the process that provides voltage in a battery cell? Check out this virtual lab.
University of Virginia
Uva Virtual Lab: One Capacitor
What is the highest voltage that can be had with one capacitor? Find an illustration of it here.
University of Virginia
Uva Virtual Lab: Nanocarbon From Graphene to Nanotubes to Buckyballs
This lab explains how carbon atoms bond into rings which serve as the building blocks of graphene and graphite sheets, carbon nanotubes, and C60 Buckyballs.
University of Virginia
Uva Virtual Lab: Ac & Dc Electric Motors
An explanation of how magnetic attraction and repulsion are used to make both DC and AC electric motors. Check out the video clips for understanding
University of Virginia
Uva Virtual Lab: How Semiconductors and Transistors Work
Investigate how semiconductor crystals work and how they are used to make transistor switches. Check all of the video clips.
University of Virginia
Uva Virtual Lab: Minilab Oxidation
The University of Virginia has an oxidation furnace which is featured in a collection of short video clips.
University of Virginia
Uva Virtual Lab: Minilab Lithography
After oxidation photolithography is the second step in fabricating a device such as a semiconductor diode. These videos will demonstrate the photolithography process.
University of Virginia
Uva Virtual Lab: Wet Etching Bench
A process of removing material using liquid chemicals is featured in this video series. Understand what wet etching is.
University of Virginia
Uva Virtual Lab: Doping Furnace
Check out the Minilab furnace used to introduce electrically active "dopant" impurities into the silicon wafers.
University of Virginia
Uva Virtual Lab: Molecular Beam Epitaxy (Mbe)
Microelectronic devices are made by repeating two steps: 1) Depositing a thin uniform layer of material; 2) Then using a photographic process to pattern and remove unwanted areas of that layer. Discover the role that an MBE plays in this...
University of Virginia
Uva Virtual Lab: Making an Integrated Circuit (Ic)
Explore the step-by-step process by which the transistors of an integrated circuit are made through a series of video clips.
University of Virginia
Uva Virtual Lab: Euv Lithography
Check out a prototype of this Extreme Ultra Violet optical system. The video clips explain the structure and function of the system.
University of Virginia
Uva Virtual Lab: Electricity and Magnetism Classroom Tour
Take a tour through a typical classroom. What can be found that uses electricity and magnetism? This lab will explore the teacher's computer.
University of Virginia
Uva Virtual Lab: Electrometer
Movement of electricity or heat through an object is conduction. Observe how objects charge through conduction based on the findings of the electrometer.