After atoms, it's now the turn of molecules to form a Bose–Einstein condensate.
"Physicists have succeeded in cooling down molecules so much that hundreds of them lock in step, making a single gigantic quantum state. These systems could be used to explore exotic physics, such as by creating solid materials that can flow without resistance, or could form the basis of a new kind of quantum computer."
After crisis in interstellar space, stream of Voyager 1 data resumes. Before its computer crashed, the venerable NASA probe may have entered mysterious new region beyond the Solar System.
British physicist Peter Higgs was born #OTD in 1929.
In 1964, Higgs proposed a theory explaining how particles acquire mass. This mechanism involves the interaction of particles with a field, now known as the Higgs field. The field has an associated particle (Higgs boson). The search for the Higgs boson became a major focus of particle physics experiments. In 2012, scientists at CERN's Large Hadron Collider announced the discovery of a new particle consistent with the Higgs boson.
By weaving popsicle sticks together in a specific pattern, there is a build up potential energy (stored energy) in the bent and twisted sticks. When released from one end, this stored potential energy is converted into kinetic energy (energy of motion) as the sticks rapidly unfurl & fly through the air in a chain reaction. #science#physics#energy#engineering
Awhile back I had some odd physics ideas but was having trouble finding user-friendly tools to try them out.
Somewhere along the way I stumbled across Principia, & while the base version wasn't capable of what I wanted to try, I appreciated it regardless for being a cool, user friendly physics toy.
Sometime maybe I'll try modifying it to try out my odd ideas. Give it a look if you're into digital toys!
A couple of weeks ago, I posted an #animation of a point on a circle generating a #cycloid.
If you turn the curve "upside down", you get the #BrachistochroneCurve. This curve provides the shortest travel time starting from one cusp to any other point on the curve for a ball rolling under uniform #gravity. It is always faster than the straight-line travel time.
Particle physics and cosmology go hand-in-hand, despite the vast difference in scales. So when something new starts brewing in the quantum world, we pay attention. On this week’s Big Picture Science - could physics experiments take us “Beyond the Standard Model?”
Something interesting is rumbling in the physics community. Are we on the brink of discovering a new force of nature? At least one particle physicist thinks so. We venture “Beyond the Standard Model” on Big Picture Science.
Physicists conjecture that for each cat, there is an anticat of the same size but opposite temperament. Some cats are shifted red and some are shifted blue. I’m not sure I got that all right. I was prety sleepy during the lecture.
Cat and Anticat
Doodle No. 141
8” square
Drawn with archival archival black pigment ink, highly lightfast (fade resistant) watercolor pencils, mica paint on Arches 300 GSM 100% cotton paper
French physicist Jean-Pierre Christin published the design of a mercury thermometer using the centigrade scale with 0 representing the melting point of water and 100 its boiling point.
Available at : Annales des sciences physiques et naturelles, d'agriculture et d'industrie
By Société d'agriculture, sciences et industrie de Lyon. via @googlebooks
English self-taught mathematician and physicist Oliver Heaviside was born #OTD in 1850.
He invented a new technique for solving differential equations, independently developed vector calculus, and rewrote Maxwell's equations in the form commonly used today. He significantly shaped the way Maxwell's equations are understood and applied in the decades following Maxwell's death. His practical experience in telegraphy provided a foundation for his later theoretical work.
Entropy balance and time travel in the MCU
(need to know the concept of entropy and homeostasis, and the previous principles of MCU)...