This concept is merely give in indian textbooks (NCERT) but not explained nicely. This video was exactly what i needed to fill in my loophole... Thanks a lot.
Just subscribed + liked your video! You explains so well- I love your explanation so much! It is specific, slowly explained, and easy! You made my day :) Thank you so much and please upload more and more videos!!
Top notch explanation. I totally get now why you have to keep the area under the curve fixed. By the way, this topic appeared in the 2017 AP Chemistry free response question #1 part b. ii. :)
Why does the distribution flatten out as energy increases? Does the distribution flatten out with increased temperature due to a corresponding increase in entropy? Is this because, as there is more energy in the system, there is also an increased number of states that the particles could occupy? Or perhaps it's because there are more collisions as temperature increases, and the collisions can cause momentary negative or positive acceleration that would increase the proportion of particles fount at the left and right tails respectively?
So does that mean in every reaction there will always be some particles that will not react? As I'm assuming that there will always be particles lower than the activation energy?
As the area under this curve is constant, surely this graph assumes the situation taken at any exact point in the reaction, and therefore when altering ea and temp, the exact rate at that point in the reaction? Is this true? Also, how to the particles involves in insufficient energy unsuccessful collisions eventually gain enough energy to achieve the ea and become successful, causing all particles to eventually be reacted and causing the reaction to stop?
Pro tip: Carry a fork with you, if someone tries to rob you, pull the fork out of your pocket and say "Thank you lord for the meal Im about to have" and charge at them with the fork
You just managed in 10 minutes what my professor wasn't able to do in one semester. Thank you very much.
THANK YOU SO MUCH!!!!!! I JUST DIDNT UNDERSTAND IT BEFORE BUT NOW I DO!!!!! THANK YOUU
YOU'RE VERY VERY WELCOME !!!
After watching many videos I could finally thank you sir
I don't ever comment on these types of videos but I really have to thank you!! I get in now thanks
+Tania Begum I'm pleased you did. Glad you get it now - keep watching!
Thanka
thank you so much, sir, even videos from 7 years ago are still helping us students out there. thank you
definitely going to tell my teacher to refer her classes to you. brilliant thank you
truly amazing teacher, God knows how many beautiful future's you have had a hand in moulding!
Wow, thank you
makes today's college lecture so much clear
Your video was beyond useful, and explained the distribution so so well without extraaa complications :) Thanks a mil!
Thank you so much! You explained it in a really simple way which made it so much helpful
This concept is merely give in indian textbooks (NCERT) but not explained nicely. This video was exactly what i needed to fill in my loophole... Thanks a lot.
Thank you for making this, it _really_ helped me understand the topic! Good job :)
Best vedio ever for collision theory.
best explanation on youtube x
Thank you for the video! So far the best explanation in youtube! P.S Love your video formats. Keeping it simple and straightforward!
Thanks for that, very kind of you. No need for it to be over complicated
Thanks for that, very kind of you. No need for it to be over complicated
Great video, thank you!
fantastic video, you made it so simple, thank you!
This was incredibly helpful thank you!
Absoulte legend. Im subbing, this guy is great !
joe donna Wonder if you're subber 8000? Cheers, glad you like them
MaChemGuy I guess I was 😂
Just subscribed + liked your video! You explains so well- I love your explanation so much! It is specific, slowly explained, and easy! You made my day :)
Thank you so much and please upload more and more videos!!
bandi J Thank you so much for your comment. You made my day! 😊
Amazing Video
You saved so many lifes! Thank you!!!
Azyyati Syahmi Thanks for the feedback. Glad you liked it
Nice teaching👍👍👍
Uff...I couldn't understood before....Thank you a lot....
You're very welcome :)
You are so helpful thankyou!! :)
thank you !!this is so helpful
Amazing video. I understand this stuff a lot better
Ebenezer Hamadziripi glad to hear it 😊
Thank you this was great !
You are literally AMAZING
v.k.l Steady on! Thanks btw 😊
Thank you so much for this video it was really helpful!
Thank you so much for the comment, it made my day! Glad you found the video helpful :)
crystal clear. thanks a lot
Top notch explanation. I totally get now why you have to keep the area under the curve fixed. By the way, this topic appeared in the 2017 AP Chemistry free response question #1 part b. ii. :)
2030games Great to hear. AP, that’s 🇺🇸 isn’t it?
MaChemGuy yep! I’ve got it tomorrow!! 😊
2030games Huge good luck from me!! 👍
Very helpful video thank you!
This video saved me
Amazing explanantion
Thank you so much sir
Clear explanation thanks a lot sir
Excellent explanation...
Thanks really helpful
thibbledibble You're welcome - thanks for taking the time to comment
Thank You Very much sir.
You are most welcome
Great description of a Maxwell-Boltzmann distribution. I gather a Boltzmann distribution is totally different?
Thanks
Thank you so much!
Awesome
Chantelle Too kind but thanks 😊
Thank you so much Sir,I have my AS Level Chem exam
thx homie
love this man!!!!
Why does the distribution flatten out as energy increases?
Does the distribution flatten out with increased temperature due to a corresponding increase in entropy? Is this because, as there is more energy in the system, there is also an increased number of states that the particles could occupy? Or perhaps it's because there are more collisions as temperature increases, and the collisions can cause momentary negative or positive acceleration that would increase the proportion of particles fount at the left and right tails respectively?
Thank you so muchhhh
You're welcome!
Thank you sm
Happy to help
So does that mean in every reaction there will always be some particles that will not react? As I'm assuming that there will always be particles lower than the activation energy?
Lauren High with energy lower than the activation energy*
Yep
As the area under this curve is constant, surely this graph assumes the situation taken at any exact point in the reaction, and therefore when altering ea and temp, the exact rate at that point in the reaction? Is this true? Also, how to the particles involves in insufficient energy unsuccessful collisions eventually gain enough energy to achieve the ea and become successful, causing all particles to eventually be reacted and causing the reaction to stop?
thankyou:)
Thank you for this helpful video. I have a question, what would the distribution curve for particle speeds look like for any gas at absolute zero?
They'd all stop moving
+MaChemGuy so there is no curve?
+Dana Kar Nope
Thanks
:)
Thanks #DA
Pro tip: Carry a fork with you, if someone tries to rob you, pull the fork out of your pocket and say "Thank you lord for the meal Im about to have" and charge at them with the fork
3.26 the marker(mic) drops
miao cat 3:21 surely
3:21
May Allah give him belief of only one almighty Allah
Hmm, just don't like it.
I don't ever comment on these types of videos but I really have to thank you!! I get in now thanks