"Traditionally in physics we don't think of condensed matter as being a complex system, but that's really just a question of history ..." says Mark Newman. What a great observation! Many thanks for this talk!
I like the example of adding connection to nodes.Sometimes we have to make a tradeoff between controlling the spread of virus and the cost we spend in it(e.g. test of covid19; traffic control). If we know the phase transition point, we will make better decision.
Really interesting! Gives a great insight into Professor Newman's work! Thanks for sharing! I have to say tho that Nassim Nicholas Taleb and such mathematicians would not be very happy with these theories, as they rely on Gaussian models and completely omit fat tails etc...
"Traditionally in physics we don't think of condensed matter as being a complex system, but that's really just a question of history ..." says Mark Newman. What a great observation! Many thanks for this talk!
Mark Newman, as always, brilliantly clear.
Nice, very good lecturer.
Thank you for this lecture, Professor Newman.
that is brilliant. Congratulations and many thanks.
I like the example of adding connection to nodes.Sometimes we have to make a tradeoff between controlling the spread of virus and the cost we spend in it(e.g. test of covid19; traffic control). If we know the phase transition point, we will make better decision.
... and intro and ending tune are hilarious... ! 🤣 A nice contrast with the perceived complexity of physics...
Beautiful Lecture! Bravo!
Very interesting and engaging talk!
Really interesting! Gives a great insight into Professor Newman's work! Thanks for sharing!
I have to say tho that Nassim Nicholas Taleb and such mathematicians would not be very happy with these theories, as they rely on Gaussian models and completely omit fat tails etc...