Brilliant explanation thank you! These videos are the only thing getting me through my exams!! I have one question: Is it also possible to derive the expression for the Vrms by integrating f(v) multiplied by v^2 from 0 to infinity and taking the square root ?
Thanks for this video!! My textbook skipped over this derivation and left it as an exercise and I got stuck making substitutions into the integral. Is there a way I could figure out my average speed graphically? I wouldn’t just set the derivative of my maxwell Boltzmann distribution = 0, right? That would be Vmax I believe. Hmm this stuff is very interesting!
lol. I tried to integrate that beast by hand (don't know much about stats, so didn't think to do the v*f(v) thing)... it didn't end well. Was glad to see that you had to look it up. =) This is a great little series, thx for putting it together.
The area under the curve represents all of the molecules in the sample. f(v) represents the height of the curve for a particular v dv represents a small width (a small change in velocity) f(v) x dv represents all the molecules in the sample that have a velocity between v and v + dv
hola, disculpa, serías tan amable de explicarme porque dejo (2kt/m)1/2, la verdad que no me quedo muy claro, debido a las bases distintas. Te lo agradecería mucho.
Thanks a lot!!!
This is MUCH better than what my physics teacher tought us.
You are welcome. Glad you found out videos. 🙂
I really don't know what to write for my physical chemistry papers without you sir. thank you very much.
We are glad to be able to help. Thanks for sharing.
Thank you so much for the logical explanation behind this. May God bless you :)
Thank you. I appreciate all the effort you put into your videos. Your explanations are just the best.
Brilliant explanation thank you! These videos are the only thing getting me through my exams!! I have one question: Is it also possible to derive the expression for the Vrms by integrating f(v) multiplied by v^2 from 0 to infinity and taking the square root ?
Your explanation is so easy to understand! Thank you very much!
You are welcome! Glad it was helfpul!
Thankyou very much, sir..... I was searching for this. Finally found the best one....
Thank you so much for this, you helped me figure out a problem on my physics worksheet that I couldn't get otherwise.
Glad I could help!
Thanks for this video!! My textbook skipped over this derivation and left it as an exercise and I got stuck making substitutions into the integral. Is there a way I could figure out my average speed graphically? I wouldn’t just set the derivative of my maxwell Boltzmann distribution = 0, right? That would be Vmax I believe. Hmm this stuff is very interesting!
you are the best teacher ever
Ur explaination really helped me thanks 👍
Glad you found our videos. 🙂
That was precise and clear. Need to sharpen my Calculus. Thank you. Sending love from the Philippines
Welcome to the channel!
Thank you so much sir
Such an awesome explanation 👏❣️
Thank you. 🙂
Thanks for enriched solution
Fantastic explanation. Thank you.
Bro this is fire
Outstanding👍🏻 and thank you soooooooooo much.
lol. I tried to integrate that beast by hand (don't know much about stats, so didn't think to do the v*f(v) thing)... it didn't end well. Was glad to see that you had to look it up. =)
This is a great little series, thx for putting it together.
Thank you for your fantastic videos!
Thank you. Glad you like them! 🙂
Pls make a vedio on collision parameters and virial equation
Nice explanation sir
Exactly the focused info I was seeking. I can sleep tonight!
Thank you very much.
Welcome 😊
where can I find the playlist this video is in?
It is this playlist: PHYSICS 32 KINETIC THEORY OF A GAS
@@MichelvanBiezen Thank you professor!
Sir ,can you please explain how the main formulae derived
We will have to make a video on that.
@@MichelvanBiezen OK sir
Thank you
sie the first equation you write down in which you said that integeration of f(v)d(v) is equal to 1 why it is equal to 1 it can be equal to 0
It is set equal to one to normalize the function, so we can find the probability of finding a molecule at a particular velocity.
@ 8:33 how power is adjusted?
That was so awesome! Thx u.
I do not understand why f(v)*dv represents the number of molecules with speeds between v and v+dv Can sb help explain this to me?
The area under the curve represents all of the molecules in the sample. f(v) represents the height of the curve for a particular v dv represents a small width (a small change in velocity) f(v) x dv represents all the molecules in the sample that have a velocity between v and v + dv
At 0:44 If the area under the curve is the total number of molecules how to understand that it is equal to one ? Can sb help me plse!
@Matteo Stassin Thank you very much!
Thanks a lot for your video
Have u uploaded expression for most probable...
Thank u so much sir....
Thank you so much!
Good sir
You're welcome 😊!
sir can you explain itt
Absolutely legend 👏🏻👏🏻👏🏻💘
Can you please share the link to derivation of root mean square?
You can find that here: Physics - Thermodynamics: (6 of 10) Average, Mean, and Root Mean Square Velocity
MAESTROOOOOOOOOOOOOOOOOOOOOOOOO!!!!!!!!!!!!!!!!!!!!
hola, disculpa, serías tan amable de explicarme porque dejo (2kt/m)1/2, la verdad que no me quedo muy claro, debido a las bases distintas. Te lo agradecería mucho.
Τhanks
Thanks for enriched solution