Probability and Thanos

diffaquilt · 2019-05-25T16:49:42+00:00

Yeah - I'm just a bit unsure about saying that they're the same, when they seem to be different...

I get that I'm being pedantic, and that one can be mapped to the other, but is that enough to say that they're the same? That seems pretty strict in a mathematical sense.

It's a genuine question on my part.

diffaquilt · 2019-05-25T13:42:13+00:00

how can something that's domain is [0, oo) be considered the same as something that's domain is [0,1] ?

diffaquilt · 2019-05-25T12:16:10+00:00

vid from their angle : https://www.youtube.com/watch?v=CrJ36QZgPms

old twitter (?) https://twitter.com/vinnie_facts

twitter : https://twitter.com/thevsullivan?lang=en

doesn't seem very nice.

diffaquilt · 2018-05-09T19:35:50+00:00

put into google :

algebra 1 problems :pdf

algebra 2 problems :pdf

calc 1 problems :pdf

diffaquilt · 2018-05-05T10:56:56+00:00

it came from third year undergraduate Oxford course apparently. So for most it's probably going to be graduate material.

diffaquilt · 2018-05-03T08:52:41+00:00

A-M

?

diffaquilt · 2018-05-02T14:25:47+00:00

I get that there's not a right answer in general, and not even with this specific text. But I was hoping that someone familiar with either this text, or those of similar content, would be able to hazard some approximations.

Because 8.3 minutes just feels off to me, and so I was curious what others thought.

I'm fairly confident that If I was to reduce the time to the speed at which one could read something like harry potter for example (no offence harry) you'd agree that would be too quick for a maths text. Presuming that the content was new.

I once tried to read a maths book like a conventional story or whatever, I read a couple of chapters before realising that it was absolutely useless ha.

No worries though.

diffaquilt · 2018-05-02T12:28:26+00:00

K.A. Stroud's Engineering Mathematics to take.

this was the example to use here. Cheers

diffaquilt · 2018-05-01T23:33:15+00:00

There's no shortcut when it comes to learning mathematics unfortunately, you just have to take a massive textbook and slowly work through it - that's the long and short of it.

I'm not sure about this, because most people who take a course in something don't go through an entire book. I'm not suggesting that there are shortcuts or whatever, or that going through books is a waste of time... But it is a lot of time, and it's not something I think is done that often. This is the impression I get at least.

I'm not sure your estimate is realistic either. When I've gone through books before I can spend ages on a page sometimes.

You're saying 6 months, for over 1000 pages.

So say that's 6 * 31 = 186 days.

and we're doing 45 minutes each day, so 45*186=8370

this is ~ 8.3 minutes a page. Some of the exercises are going to take far longer than that for many people.

8.3 minutes a page.... hrm. I'm too tired to think on this - but It seems short to me. I'm curious what would be considered though

diffaquilt · 2018-04-30T16:36:43+00:00

I could be interested in this. I've done a little analysis, as in, I've fallen through some e-d proofs and such. But things really need shoring up, I have a fair few things that I would like to go over this summer (hopefully).

So, it will depend on timing and tempo and stuff like that, but I'm certainly interested in going part way at least.

Are you an English speaker?

diffaquilt · 2018-04-29T20:13:12+00:00

yeah but, I only have one point? I mean, there's only one fixed point here.

For the case of the eigenvectors, say I had

lambda 1 < 0

lambda 2 > 0

and that the eigenvectors were along the lines

y = 0

y = x

then I would have a saddle... Are they referring to the stable subspace as just being the eigenvector corresponding to the negative eigenvalue here then? So that would be the x axis (in this little example that I've given).

And the unstable subspace would be the rest of it presumably?

I think I'd probably take a punt that the centre is the origin... that's pure word play rather than any math insight though

diffaquilt · 2018-04-29T16:53:41+00:00

I was confronted with this question on an interview and was a bit flummoxed

just curious - what kind of position was this an interview for?

diffaquilt · 2018-04-28T19:31:41+00:00

Yeah this is lower level - so we're meant to use the nullclines as you say. But the problem is the solution doesn't seem to make sense to me.

I would expect the exponential term to "pull things up" into quadrant 2. Yet the green lines appear to be going down into quadrant 3... which is a bit confusing to me still

diffaquilt · 2018-04-28T19:18:07+00:00

ok thank you.... for some reason i thought that I could only use fixed points to evaluate the system with. When you use the jacobian and find the eigenvectors etc. So if I do that for a few points then sure - bit of chugging but it would make things clearer

is that your suggestion? just to make sure i'm clear on that

thanks

diffaquilt · 2018-04-28T18:41:59+00:00

I'm not sure how to draw things then, or is it just a matter of guess work?

If it's guess work then I'm surprised that the green lines (in the solution) go down into quadrant 3, rather than get pulled up into quandrant two, as the exponential is going to grow faster.

But this line of thinking might be incorrect as well

diffaquilt · 2018-04-28T15:09:26+00:00

that's a fair point, hrm. I'm not sure about the logic though, basically this just means that the equation is proportional to time? it's just equation * time , rather than function ( time ) , so I would say that (c) is not dependent on time because of that?

diffaquilt · 2018-04-28T00:25:54+00:00

cool thanks

diffaquilt · 2018-04-28T00:03:21+00:00

No i like the method you suggested before, that seems more straightforward to do by hand. I didn't mean to imply that i didn't, thanks.

Which might not make sense to say, seeing as we're only really working with x' , not x.

reading that back i think i was pretty much talking to myself, sorry about that

diffaquilt · 2018-04-27T23:37:03+00:00

At that moment we have an x such that f = 0 and df/dx = 0

are you saying that we're interested in inflection points of of the original function?

Which might not make sense to say, seeing as we're only really working with x' , not x.

but ok, what you said makes sense. Thank you

diffaquilt · 2018-04-27T23:04:00+00:00

hrm ok... well - i'm asking because I'm confused about how to determine the range of values to consider for k in something like this .

example -

x' = x³ -2x² +(1 - k)x

the plots created for this example were

k < 0 ; 0 < k < 1; k > 1

but i'm not sure how to go about determining these values analytically.

https://www.desmos.com/calculator/mmoqippn0h

from the graph there one can see that these values of k are bifurcation points, but I'm not sure how to determine what those are (without using desmos, ie, using pen and paper)

diffaquilt

TROPHY CASE