A visual representation of how quantum computers work
A visual of how quantum sensors are being used to try to detect the existence of dark matter
A visual representation of how particles can spin in opposite directions at the same time
A visual of how quantum teleportation works
In classical physics, objects have precise position and waves are spread out in space. In the quantum world, these two concepts are combined. It is impossible to measure the precise position and velocity of and particle simultaneously.
A visual representation of the difference between a classical walker and a random walker
Participate in a multistate quadrant prairie study
A visual representation of the Fermi Lab SENSEI experiment
A visual representation of how the LUX-ZEPLIN Detector works
A visual representation of the Dark SRF experiment at Fermi lab
A visual representaiton of the spontaneous change from a symmetric state to an asymmetric state
A visual representation of how uncertainty in precision or momentem can be adjusted.
A catalog of resources on cosmic rays
A database of resources for students looking to learn more about the structure of the universe
A catalog of resources for seismic activity studies
This project allows students to experimentally discover the temperature dependence of resistance using a copper wire, a standard 1 Ω resistor, and a piece of BSCCO 2223 superconducting tape. Using liquid nitrogen as the refrigerant, students will measure electrical resistance over a temperature range from -196 °C (77 K) to room temperature, approximately 22 °C (295 K).
This project allows students to experimentally discover the temperature dependence of resistance using a copper wire, a standard 1 Ω resistor, and a piece of BSCCO 2223 superconducting tape. Using liquid nitrogen as the refrigerant, students will measure electrical resistance over a temperature range from -196 °C (77 K) to room temperature, approximately 22 °C (295 K).
A visual representation of a variety of symmetries in physics
A virtual tour of the Lederman Science Center. The guide shows/discusses a variety of interactives, demos, and displays
A fundamental force matching card game