@Kristianpont

I gave this video a spin up👍

@Capeau

I wished i had teachers like these guys

@gmo2932

Love this format for the show. Very engaging.

@Sam-mr8kh

This is the thing people should concentrate on, no geopolitics, no war no religious fanatism.

@drunklemike420

i loooooooooooooooove putting these on and smoking the bong and then cuddling up in my blanket and fallin asleep to  brian greene

@sonjeow

I love Youtube. The sharing of knowledge is amazing.

@abdulazizrehan

Brian Greene just makes life so much more beautiful, what a guy.

@tourdeforce2881

Seth Lloyd has to be one of the most relevant physicist of our time

@williamjames9515

Thank you for trying to teach those of us who lack the appropriate education or even sufficient neural connections about a subject we so much want to understand.

@asterixx6878

The older he gets, the crazier he looks. You just have to love Seth Lloyd!

@Adventure_Food_Fun_US

Make sure you listen to this at least 3 times because each time you watch it your electrons spin different ways.

@Idonthaveahandleok

Brian - I first began listening to you when I bought Fabric of the Cosmos on iTunes and listened to it on my iPod click-wheel while biking during my undergrad (circa 2006ish).  I can't thank you enough for doing these WSF presentations and making them available to everyone for free!

@vibehighest

literally at 31:39 i was thinking the same thing "you have everything running at the same time but how do we know which one is right? how does the quantum computer know?

@dubs20000

Brian . As usual, brilliant, eloquent and simplified for people like us.  By the way, do you keep track of how many times you take off and wear your glasses..

@mistervanderveer

Brian Greene makes for an amazing scientific communicator!

@baetidbaravidlsalti-wu4rv

24:30 quantum computing talk  starts

@manutara2007

I love this channel. I always say...one of the best things I did was learning English .

@ahsanmohammed1

Brian. Thank you.
Please do a series on the engineering, tools and methods people use to measure qbits

@msyjMusic

Think of a piano. An octave has 12 keys, with each note doubling in frequency. A classical computer is like a pianist playing sheet music where notes are played one at a time, even if played rapidly. The more notes required, the more its limitations show. Qubits, however, are like adding fingers, allowing multiple notes to be played simultaneously. With 12 fingers, you can play Mozart.

@tims.2832

If you can break something down that clear, you got it. And I understood that QC trades one problem for another: yes, Qbits feature superposition, but you’re ending up with quasilions of solutions and now you gotta figure out which one is the right one