Is there a reason for the phosphate reaction that the bond on the right is broken rather than the bond on the left. I would expect the bond on the left to be broken more easily since there is more mass on the left chain and thus making it slightly more electronegative than the bond on the right of the phosphate.
I lovee this video and also loved how entertaining it is when he yelled at us but so... What's the penultimate 2 reactions he said in the video title that is all we need to know for all of MCAT biochemistry?!! I still can't figure it out.. Is it literally 1) Form a bond, and 2) Break a bond?! LOL. (go ahead and laugh, im prob that dumb student that didnt get it despite the lecturer yelling at us the whole lecture lol)
I love how you yelled at me the whole time but especially on the make a bond BREAK A BOND. Thanks this was great
2 nights before my MCAT and i truly cannot thank you enough for the smiling i did every time i heard you say break a bond. thank u
1 year later and im in teh same boat HAHA
Another year later, I’m also joined the boat
“And WE DID IT! We FORMED a bond and we BROKE a bond!”
I cannot get enough of this guy. You are excellent Science Simplified.
Probably the best MCAT video I've ever seen tbh 10/10
2 days before my exam and this legit saved my sanity thank you so much
I thought I was still watching my lectures on 1.5 speed but nope it's just you lol, thanks for beating this concept into me! Great video
thank you king for yelling at me
We should take these electrons, and push them somewhere else.
-Patrick Star (Probably)
No Patrick, Phosphorus is not a Nucleophile.
- Mr. Krabs (probably)
What have I learned? "YOU FORMED A BOND, THEN YOU BREAK A BOND!!!!"
Yell at me daddy
I APPRECIATE THIS VIDEO!
insane. thank you
This is a great video! Thank you
form a bond break a bond
FORM A BOND BREAK A BOND!!!
THANK YOU! SO HELPFUL
Is there a reason for the phosphate reaction that the bond on the right is broken rather than the bond on the left. I would expect the bond on the left to be broken more easily since there is more mass on the left chain and thus making it slightly more electronegative than the bond on the right of the phosphate.
the oxygen at the top in the beginning of the video looks like danny devito
Ahhh yes, thank you! Sometimes you just have to yell at people until you're blue in the face for them to get it. I am one of those people!
I lovee this video and also loved how entertaining it is when he yelled at us but so... What's the penultimate 2 reactions he said in the video title that is all we need to know for all of MCAT biochemistry?!! I still can't figure it out.. Is it literally 1) Form a bond, and 2) Break a bond?! LOL. (go ahead and laugh, im prob that dumb student that didnt get it despite the lecturer yelling at us the whole lecture lol)
break ester bonds and break phospho bonds
the names Bond, Breaka Bond
It call 1,2 addition guy!! Just remember that ! Or you can say (in up, down out) but remember it only down out when there is a alkyl halide group!
he knows that he is just explaining it he knows a lot more than you
@@raghuvenkatesan6792 😂😂😂
@@pyarmo lol you know its true
how do you know which bond is broken/what molecule becomes the leaving group?
my fav part of this video is "TRIGIONAL"
Wait, what happens when you form a bond?
You form an anionic transition state intermediate
And then you break a bond
YOU BREAK A BONF
@@sciencesimplified3890 no you BREAK a bond
BRO COOOOOKED
could these be classifies as addition elimination rxns
Do you do all organic chemistry in your channel for mcat?
The drawing software you were using was amazing, can you let me know what software was that?
FORM A BOND BREAK A BOND
How do you know which side breaks?
It depends on the stability of the products…
Please make sure your videos are zoomed in. Some of the stuff is too small to see. Thanks
😂🤣💪
BUT AGAIN, this is a great video 🥲🙌🏼
z
Lay off the addy.
LMFAOOOO, honestly you can't tell me this man's enthusiasm isn't gr8
I love how he slightly yells, it keeps my attention constantly on the video lol
form a bond break a bondform a bond break a bondform a bond break a bondform a bond break a bondform a bond break a bond