@@Logan-tx3lk Ahh my mistake. I also just made a lesson on this topic in my high school chemistry playlist. I recently released it and assumed your comment was regarding that lesson rather than this one in my organic playlist. My bad. Best on your final exams!🙂
at 11;23 u said had we not done broken - formed and done reactants - products.. are u able to show me the work for if I wanted to do reactants - prodcuts. since u said in the vid the way u showed was broken-fixed ? thanks I wanna see the reactants- products way in addition to broken-formed so I can see how they. both work
The trend in EN I explained here only counts when we have different atoms involved in the bond, so we are comparing C-N, C-O, C-Cl etc where the atoms are not the same. When we have 2 identical atoms bonded together and no electronegativity difference, the bonding electrons are shared equally which tends to give relatively greater bond energy than polarized bonds - for example, the H-H bond enthalpy is 436kJ/mol, but we have to take into account size, lone pair repulsion etc also in these cases so there is not as simple a general trend as comparing the examples I gave here. Hope that helps!
Dude moves so fast that he overtook his own sound :J Seriously though, there sound is very out of sync in this video… :/ 10:25 So the first parentheses (in blue) is the activation energy on the graph?
You truly are a great teacher. You made me understand this topic within 10 minutes which my professor couldn't in 2 weeks. Appreciate you!!
Glad to hear it, Nyctora - glad you found the channel!
Thank you sooo much for your videos! You are literally the best...better than any teacher or book!
Thanks again Logan! Glad you're finding them helpful! You currently taking chemistry in high school?
@@ChadsPrep Nope, actually ochem in college.
@@Logan-tx3lk Ahh my mistake. I also just made a lesson on this topic in my high school chemistry playlist. I recently released it and assumed your comment was regarding that lesson rather than this one in my organic playlist. My bad. Best on your final exams!🙂
@@ChadsPrep No worries! Thank you so much!
This is so well explained... thanks a ton and keep up the great work!
Your curriculum is perfectly matching up with my classroom textbook; saving my midterm grade! lol
You're welcome, Bilal - Happy Studying!
This is an amazing lecture. Thank you so much!
Just subscribed!
You're very welcome, Rebekah - glad you found us and thanks for the sub!
Unfortunately found you 2 weeks before my MCAT -___- but I know what Ill be watching until then! Awesome stuff
Better late than never - good luck, ledge x!
My Ochem teacher has a pretty thick accent so it's hard to understand her, but you are absolutely saving me in that class thank you!!
Glad the channel is helping you - Happy Studying!
at 11;23 u said had we not done broken - formed and done reactants - products.. are u able to show me the work for if I wanted to do reactants - prodcuts. since u said in the vid the way u showed was broken-fixed ? thanks I wanna see the reactants- products way in addition to broken-formed so I can see how they. both work
Amazing video prof!
C-N is less E than C-C
But isn't N more EN than C?
What time in the video is this so I can check it out
Around 6:30 @@ChadsPrep
The trend in EN I explained here only counts when we have different atoms involved in the bond, so we are comparing C-N, C-O, C-Cl etc where the atoms are not the same. When we have 2 identical atoms bonded together and no electronegativity difference, the bonding electrons are shared equally which tends to give relatively greater bond energy than polarized bonds - for example, the H-H bond enthalpy is 436kJ/mol, but we have to take into account size, lone pair repulsion etc also in these cases so there is not as simple a general trend as comparing the examples I gave here. Hope that helps!
@@ChadsPrep thanks!
@@Bulayla1426 You bet!
Nice shirt😀
Thanks Logan! Probably my favorite shirt! Unfortunately, it is probably not too far from retirement.🙃
Thank you 👍🏾
You're welcome - glad the channel is helping you so much.
From india 👌👌
👍👍
Dude moves so fast that he overtook his own sound :J
Seriously though, there sound is very out of sync in this video… :/
10:25 So the first parentheses (in blue) is the activation energy on the graph?