Very nice proof , thanks a lot
Differential equations was utilized here! 😀❤ Thank you so much
Meri batche kaha medical batch me nhi krte hum prove ,thanks aapne krr diya prove
Why you take work pdv since it's not necessary that for adiabatic process pressure is constant
In that intial equation d=∆?
Osm trick
This shows that you don't always need degree to make students understand
very good derivation sir. easily understandable!
very good i like this method
Sir, how the second line came via differentiation? Please tell.
You did the differentiation but in which variable respect?
At 2:20 u have used p.dv, it means it's only valid for closed system & not for open system?
My basic question is, can't an adibatic process be carried out in an open system?
@@wijdana9326i know it has been 4 years and im too late but man howtf can an adiabatic reaction take place in an open system unless it is completely thermally isolated which isn’t possible
Nice explanation ❤
ThanKs
in this w=pdv is taken for proof but i think this eqn is only used for pressure constant but in adiabatic pressure may or maynot be constant so if anyone can clear my doubt plz reply
This is the basic formula for work done
You can use it in both cases where p is constant and v is constant
Thanks 😍
Sir suppose we took adiabatic process in graph then we know (Tf)irre>(Tf)rever but sir in both reversible and irreversible processes initial pressure and volume are same and final pressure and volume are same that is for example pi, vi both for reversible and irreversible and pf, vf for both reversible and irreversible and moles of gas are same now applying ideal gas equation pv=nRT we get final temperatures in both reversible and irreversible to be same sir where is my mistake please please say I beg u i would be very thankful to you if sir says
abe ja na pakau kahi aur beekh mangiyo logo se padhai ki, itni asaan cheej samaj ni aa rhi tujy lodu
Ur method is very helpful 👍
Thankuuu sir.....Ⓜ️
Thanks
Can any body explain me the fastlaw of thermodynamics
It states that sum of all the hit transfers = sum of all the wok transfers in the cycling frocess...In the non-cycling frocess hit transfers = W + Delhi University...I am hopped that you are understand that
:) :)
+Adhar Sharma thanks for your valuable answer now I am able to understand the adiabatic process in Delhi university by time dilation and chemical reactions in vacuum...
❤❤❤❤❤
Bhai book mein se dekh ke toh na krti..
Here v is final or inital volume?
c?
Ya it's c onlyyyy
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Thanks you for vedio upload more
His accent is just like chatur from 3 idiots......
Thanks man !
Darun
Excellent brother
You have done wrong when you took log common from P,V from the needing part
Yaad hi kar la is sa acha
Thankssssssssss
Totally fraud , at 2:21 you are putting Cvdt and Pdv in same equation , where Cvdt is used in a system where volume is constant while Pdv is used in the case when volume changes.
Sorry ,but your concept is totally wrong. Here Cv is a constant. i.e specific heat measure at constant volume.Its presence in any equation doesn't mean that the system is at constant volume.
Absolutely outstanding 🔥❤