Why is it assumed in the example that X will return to the higher stable fixed point rather than there being a stochastic selection between the two? Edit: Is it because we make an assumption that there are hidden variables in the system that remain the same throughout the system's change in r?
At 10:49, we are at a fixed point, although unstable, I'll need some clarification on those: (1) we'll still need some external interference to change x in order to drive it to a stable fixed point, otherwise it would stay on x=0 line isn't it? (2) depending on what that interference is, we might jump upwards, but it's also capable of jumping downwards to reach stable fixed point on the other side, is this true?
Simple but great explanation
Very nice explanation, thank you!! (writing this comment one day before a complex systems exam hahah)
Why is it assumed in the example that X will return to the higher stable fixed point rather than there being a stochastic selection between the two?
Edit: Is it because we make an assumption that there are hidden variables in the system that remain the same throughout the system's change in r?
At 10:49, we are at a fixed point, although unstable, I'll need some clarification on those:
(1) we'll still need some external interference to change x in order to drive it to a stable fixed point, otherwise it would stay on x=0 line isn't it?
(2) depending on what that interference is, we might jump upwards, but it's also capable of jumping downwards to reach stable fixed point on the other side, is this true?
Great video☺️☺️
Excelllent.
very nice
Cool!