you prolly dont give a shit but if you're stoned like me during the covid times you can stream all of the new movies on instaflixxer. Have been binge watching with my girlfriend for the last few weeks =)
For the microcanonical system, we had: [1] W(Et)= W(Et).W'(Et) : if the systems are independent or negligible interaction such that Et= E + E' ----------------------------------------, with Wt(Et): # accessible microstates of the whole system at energy Et W(Et): # accessible microstates of the subsystem 'A' at energy Et W'(Et): # accessible microstates of the subsystem 'B' at energy Et so, the probability of the subsystem 'A' having energy E is [2] P(E)= Wt(E)/Wt(Et) ----------------------------------------, with Wt(E): # accessible microstates of the whole system such that the subsystem 'A' has energy E which is the same as the following: [3] P(E)= (W(E).W'(E')) / Wt(Et) ---------------------------------------------------------,with W(E): # accessible microstates of the subsystem 'A' with energy E W'(E'): # accessible microstates of the subsystem 'B' with energy E' Substituting [1] in [3]: [4] P(E)= (W(E).W'(E')) / (W(Et).W'(Et)) Now, for the macrocanocical system, we have: V
Perfect for who know the fundamental concepts of Statistical mechanics and microcanonical ensembles, and a little bit of QM (otherwise is a little confusing). Thanks!
If perspective of why we understand physics is changed, instead of getting marks, we emphasize how world works, than and only than you will understand statistical physics.
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First ever Statistical / Thermo where i undesrstood what's actually going on apart from math..... THANK YOU Prof.
you prolly dont give a shit but if you're stoned like me during the covid times you can stream all of the new movies on instaflixxer. Have been binge watching with my girlfriend for the last few weeks =)
@Khalid Trevor yup, I have been using instaflixxer for years myself :)
For the microcanonical system, we had:
[1] W(Et)= W(Et).W'(Et) : if the systems are independent or negligible interaction such that Et= E + E'
----------------------------------------, with
Wt(Et): # accessible microstates of the whole system at energy Et
W(Et): # accessible microstates of the subsystem 'A' at energy Et
W'(Et): # accessible microstates of the subsystem 'B' at energy Et
so, the probability of the subsystem 'A' having energy E is
[2] P(E)= Wt(E)/Wt(Et)
----------------------------------------, with
Wt(E): # accessible microstates of the whole system such that the subsystem 'A' has energy E
which is the same as the following:
[3] P(E)= (W(E).W'(E')) / Wt(Et)
---------------------------------------------------------,with
W(E): # accessible microstates of the subsystem 'A' with energy E
W'(E'): # accessible microstates of the subsystem 'B' with energy E'
Substituting [1] in [3]:
[4] P(E)= (W(E).W'(E')) / (W(Et).W'(Et))
Now, for the macrocanocical system, we have:
V
Perfect for who know the fundamental concepts of Statistical mechanics and microcanonical ensembles, and a little bit of QM (otherwise is a little confusing). Thanks!
it helped me.....it helps really if you already have a conceptual ground(more or less).It helped to clear out some of my conceptual blockages...
Really nice to see this kind of intellectual personalities. Thank u sir
what an excellent lecture by the legend!
This is a wonderful lecture, clear and crisp like all of balki's other lectures.
As usual, a really great lecture!
very helpful for conceptual understanding of stat mech .Loved it
Oasis of physics.
Is there any answer certain objects are opaque and some are transparent?
FAntASTIC compliment e a big thank you.I wish I could have had this material back in my university years....
. Excellent and clear lectures thank you.
40:18 excellent!!
Very nice.Is there any device for storeup light energy and reproduce at our desired time?.
Dry subject he is making it interesting is his talent.physics is desert travel.
If perspective of why we understand physics is changed, instead of getting marks, we emphasize how world works, than and only than you will understand statistical physics.
U r awesome sir.
in this lecture is very fine but all chapter please covered
Excellent and awesome.
These lectures will be helpful only if you have basic knowledge of subject.... Otherwise awesome lecture..
I mean, it is a third year university course after all.
Masterpiece 😭
Real men starts video by Shanti Path(शांति पाठ गणपति अथर्वशीर्ष ) from Ganpati AtharvaShirsh
Absoluty perfect
Wonderful
This is more like a presentation you make to someone who's just asking if you know, not somebody who wants to know what you're talking about.
in opposit to other lectures this lecture is very abstract and boring!!!
Bekar