Taking the ACS final for Ochem I and II tomorrow morning! This has been a great review for stuff that I've needed to brush up on. Thank you for this video series!
Just remember that you probably do know the answer to the problems. They have just twisted the question or phrased it oddly to make them appear difficult.
Thank you for the reupload! Your videos and examples are very helpful. You have an excellent way of presenting information to help even the most clueless, like myself, understand a new concept!
sorry but the way you explained the shortcut for hybridization. blew my mind. I can never remember those but your formula is so nice and simple. I love you.
@@natewymer5917 I know this may sound stupid but what exactly should I expect for the Orgo 2 ACS final? More heavy emphasis on orgo 2 topics or just a mix of orgo 2 and 1?
Depends on which version of the exam you will be taking. We have a couple of older versions that we use so the newer may be a bit different. That said, the exams are a bit of everything but reactions are always the best to know. At this point, it's probably best to look at old exam as review to find weak spots in your knowledge. You probably do know the answer to the final exam question (or can eliminate most possibilities). The test makers like to obscure the question so it sounds a lot more difficult.
Technically, they all are, but they may not look like it. Atoms with charges or lone pair electrons can bridge the gap between all of the double bonds. A good way to test this concept is to attempt to draw resonance structures to form double bonds with those atoms even if it leaves gaps other places. Because the double bond can be formed there means that the conjugation can go through it. I hope this explanation makes sense.
Taking the ACS final for Ochem I and II tomorrow morning! This has been a great review for stuff that I've needed to brush up on. Thank you for this video series!
You are quite welcome. Good luck on the exam.
Lol same here I hope you do well!
Just remember that you probably do know the answer to the problems. They have just twisted the question or phrased it oddly to make them appear difficult.
preping for my final. Very helpful and insightful on things i really needed to brush up on.
Thank you for the reupload! Your videos and examples are very helpful. You have an excellent way of presenting information to help even the most clueless, like myself, understand a new concept!
SO incredibly helpful and well explained! Thanks, Nate!!
sorry but the way you explained the shortcut for hybridization. blew my mind. I can never remember those but your formula is so nice and simple. I love you.
I'm that you find the videos helpful. Let me know if you have any questions. Good luck with the exam.
This was very helpful!
Thank you!
Thank you sir I appreciate the knowledge that you are sharing. :)
Why can't you do a resonance structure on number 3 to get a different hybridization? Isn't it a lone pair adjacent to a pi bond?
I have the ACS final in 5 days for Orgo 2 and this was really helpful to review old material, thank you!
Thanks. Let me know if you have any questions. I'd be happy to help. Good luck on the exam.
@@natewymer5917 I know this may sound stupid but what exactly should I expect for the Orgo 2 ACS final? More heavy emphasis on orgo 2 topics or just a mix of orgo 2 and 1?
Depends on which version of the exam you will be taking. We have a couple of older versions that we use so the newer may be a bit different. That said, the exams are a bit of everything but reactions are always the best to know. At this point, it's probably best to look at old exam as review to find weak spots in your knowledge. You probably do know the answer to the final exam question (or can eliminate most possibilities). The test makers like to obscure the question so it sounds a lot more difficult.
Great thankyou for your explanations!
This is so helpful! THANKYOU
Thank you!
thanks a lot!
I thought aromatic compounds had to be conjugated?
Technically, they all are, but they may not look like it. Atoms with charges or lone pair electrons can bridge the gap between all of the double bonds. A good way to test this concept is to attempt to draw resonance structures to form double bonds with those atoms even if it leaves gaps other places. Because the double bond can be formed there means that the conjugation can go through it. I hope this explanation makes sense.