you are a real chad , Chad .....this really helped me and that one illustration at the end removed the confusion I've had with this topic for the past few months
damn your a life saver, my professor sucks at explaining things. They spent an hour trying to explain hybridization and you did it better in a quarter of the time
Thank you so much for this lesson! My professor didn't teach it as efficiently and with an exam coming up with hybridization as one of the covered topics, I was concerned with my lack of comprehension. You explained this so well in a manner that was so easy to understand. I can't stress how thankful I am :D
This is a much better and in-depth explanation of hybrid orbitals than my Ochem class, the taught the promotion and hybridization parts separate as if they weren't linked ideas! Thank you so much for taking the time to make this video.
I've searched every chemistry video on youtube for this topic but non was able to explain as vastly as you have. You literally blew my mind i just had to immediately subscribe. Words can't explain how grateful I'm for your help on this topic. ❤❤
So helpful and so organized! Thank you! Breaking it down into two visual steps really helped. Also, one of the best youtube "calls to action" I've heard in a long time. :-)
In person, I would often tell my students at the end of this lesson that "Oh, by the way, this is all really a lie." The look on their faces was priceless. We don't have any perfect models but they all have their utility. I'll be releasing a new lesson on Molecular Orbital Theory later this week and we'll get a little closer to reality. 🙂
@@ChadsPrep we homeschool, we are using a curriculum that I’m very unsatisfied with…we are subscribing to your master classes so we can actually get through the sophistry and learn something. Thank you
@@ChadsPrep (I have to ask, have you looked into the spherical geometry atomic model? Just a thought. They are developing modeling programs for it. It explains octet rule and radioactivity better then anything else I have considered)
this whole time, I was just wondering: where does that unhybridized orbital go?? I really appreciate this video as someone who needs to know what is going on in depth, and this explanation was perfect. I have your next videos queued up!
I thank you for actually helping me make sense of this.. very visual, which my professor is not. However, she did go over the expanded octet, and i have tried to utilize your same "promotion" "hybridization" idea and i cannot quite make it make sense. Any chance you could help out before Tuesday's test. We've utilized PCl5, SF6, and IF4+. No big deal if you cant. The short version of electron domains will suffice for sure. Thank you
Hi Chad! Just a quick question for you... Let's say I were to draw the valence bond diagram of hydronium, how would I proceed with the hybridization? I know it would be sp3 but there are only 2 available orbitals.. should I remove an arrow because of the positive charge? I don't know how that would work out... Thank you for the video though!!
if you want to see the full diagram then of course 1s2 would be included, although in hybridization, only the last 2 orbital should be considered as they are the one that will be combined after all.
I just found this channel and I must say you are a great teacher. I have a question that the geometries of these hybrid orbitals are not fixed these are generally obtained, right?
It depends on the number of bonding electron domains and nonbonding electron domains (i.e. lone pairs) on the central atom. For sp3 hybridized central atoms: 4 bonding domains = tetrahedral 3 bonding / 1 nonbonding = trigonal pyramidal 2 bonding / 2 nonbonding = bent The molecular geometry is named based upon where the atoms are located around the central atom (it doesn't factor in where the lone pairs of electrons are located). This video from earlier in the chapter expounds on this: th-cam.com/video/2vfQtwYkDtg/w-d-xo.html Hope this helps!
At 14:20 isn't it a bit wrong that in CO the C's SP has only one electron in the first box? I mean the the first hybridized orbital is fully occupied so there should be both lone electrons in the box (up and down arrows)?
Hey Tapio! This is one of the 'rules' in orbital diagrams that we fill empty orbitals first before pairing up electrons because electrons in their own orbitals experience less repulsion than in an up/down spin pair. Best way I found to remember this is if you got on a bus you would find an empty seat before sitting next to someone (if they are a stranger anyway)
what if we are given the molecular formula and asked to explain the hybridization and determine its type, and then draw Lewis structure and predict the geometry. So we cannot know the number of electron domains.
14:26 hello!!! first off, i love your videos and you have the best chemistry channel on here hands down. next, i had a question on this part of the video. you said that one of the electrons in the lone pair on CO is going to be in one of the sp hybrids. where is the other electron? i am trying to to visual lose the sp hybridization with CO but i got a little lost. can you help? thank you😄😃😃
sorry also one more thing! in the beginning at 1:49 , the overlapping s orbitals are not hybrids correct? hybridization only occurs between the orbitals of a single atom? thank you!
no lie this is the only explanation that I've gotten that makes perfect sense to me. thank you so much
You're very welcome - glad it helped!
THAT WAS LITERALLY THE BEST EXPLANATION ABOUT HYBRID ORBITALS THAT I HAVE EVER WATCHED!! THANK YOU SO MUCH EVERYTHING MAKES SO MUCH SENSE NOW
EXCELLENT! 😁😁😁
you are a real chad , Chad .....this really helped me and that one illustration at the end removed the confusion I've had with this topic for the past few months
Glad it helped!
by far the most helpful chemistry teacher I've seen
Thank you very much.
This was literally what i had been looking for this whole time. Such great explanation, i appreciate it so much.
You're welcome - Glad it was helpful!
you're amazing and your comment at the end about calling your mom and telling her you love her was adorable
I LOVE YOU CHAD
Thanks for saying so.
damn your a life saver, my professor sucks at explaining things. They spent an hour trying to explain hybridization and you did it better in a quarter of the time
Glad the video helped you - Happy Studying!
I'm so excited for your video. In the class my professor teach very quickly but when I watch your video, I understand.
From Vietnam!
Glad to hear it - Happy Studying from USA!
Thank you so much for this lesson! My professor didn't teach it as efficiently and with an exam coming up with hybridization as one of the covered topics, I was concerned with my lack of comprehension. You explained this so well in a manner that was so easy to understand. I can't stress how thankful I am :D
Excellent - I hope you do well on your exam!
You absolutely crushed this! I am in OCHEM and i never really understood hybridization until now! thank you!!
Glad this helped!
This is a much better and in-depth explanation of hybrid orbitals than my Ochem class, the taught the promotion and hybridization parts separate as if they weren't linked ideas! Thank you so much for taking the time to make this video.
You're welcome - Happy Studying!
never thought id be a guy commenting this but 2 hours of teachers lecture is 16 minutes I actually love this video
Glad the video/channel is helping you.
your 16 min explanation made more sense than my profs hour and a half lecture. thanks, it helped a lot!
Glad the video helped you - Happy Studying!
This helped me so much! I have an organic chemistry exam today and this explained it so well! Thank you!
Most welcome - hope you do well on your exam!
I've searched every chemistry video on youtube for this topic but non was able to explain as vastly as you have. You literally blew my mind i just had to immediately subscribe. Words can't explain how grateful I'm for your help on this topic. ❤❤
Glad you found us - Happy Studying!
Awesome explanation! You explain better than the Organic Chemistry Tutor on this topic. You are quite the glorious man for saving my comprehension.
Glad the channel is helping you!
Extremely Helpful. Thank you for also putting the chapters in order. It helps for those of us lacking the proper prereqs but are trying to get ahead!!
Glad it is helping you.
FINALLY YOU HAVE SAVED MY FINAL EXAM GRADE, BLESS YOU
Glad the channel helped you!
I've been struggling to understand this subject for days :D but your explanation makes perfect sense! Thank you Chad. You're a legendary teacher. :)
You're welcome and Many Thanks!
This is the best explanation of Hybridization. I have been looking for this for like an hour
Glad you found us - Happy Studying!
a viewer from INDIA studying in high school. sooo good explanation . Its a good video for revision . its great
thank you.
Welcome to the channel and Happy Studying!
Thank you so much this is literally a 1 hour lecture in 20 minutes and explained so much better!!! You are doin amazin work
You're welcome and Thank You!
I was struggling in this topic but now I understand it. You have the best explanation that I have ever watched. THANK YOU SO MUCH!
Glad to hear it - you are most welcome!
three years later, on the brink of giving up on hybridization, i find this video, words cant describe the relief of understanding
Glad you found us!
So helpful! Really well visualised and clearly explained - what a video!
Thank you!
So helpful and so organized! Thank you! Breaking it down into two visual steps really helped. Also, one of the best youtube "calls to action" I've heard in a long time. :-)
Thanks for saying so - Happy Studying!
A beautiful explanation, I could finally understand thoroughly regarding my upcoming Chemistry Worksheet, God Bless You Chad
Glad to hear it and Thank You.
You do a great job explaining a contrived system! Can’t wait until we actually figure out how electrons “work”
In person, I would often tell my students at the end of this lesson that "Oh, by the way, this is all really a lie."
The look on their faces was priceless. We don't have any perfect models but they all have their utility. I'll be releasing a new lesson on Molecular Orbital Theory later this week and we'll get a little closer to reality. 🙂
@@ChadsPrep we homeschool, we are using a curriculum that I’m very unsatisfied with…we are subscribing to your master classes so we can actually get through the sophistry and learn something. Thank you
@@ChadsPrep (I have to ask, have you looked into the spherical geometry atomic model? Just a thought. They are developing modeling programs for it. It explains octet rule and radioactivity better then anything else I have considered)
Thank you so much! This makes a lot of sense in such a short video! Thank you for you hard work explaining this and making such a nice video, too!
You're very welcome!
TYSM BRO. Your 10 minutes of teaching >>>> teachers at my school
Glad it helped you out!
You have no idea how much this video helped mee. It all makes sense now... Thank u sm chad! ❤
You're welcome - Glad to hear it!
Great work, makes so much sense compared to what I learnt in the lecture halls. Look forward to seeing more of your vids
Glad you found us - Happy Studying!
thank you so much sir. kindly please do NOT stop uploading videos. may god bless you and all of your efforts
You're welcome and Thank You.
This was so helpful! I couldn't find any other explanation that made sense to me!
Glad it was helpful!
Today I found this this Channel and am already a big fan,. great explanation, students need intuition of whats exactly happening and how
Glad you found us - Happy Studying!
you truly are a life savior. thank you sir!
Wooow 👏👏 you teach perfect, I saw several videos about this subject bud couldn't understand، now I'm Cristal clear, thanks a lot ❤
Glad it was helpful!
This helped me a lot while studying on AP Chemistry. Thanks for explaining it briefly!!
You're welcome - glad it did!
Brilliant Work Sir.
Love from India
Thank You from USA
Chad - can you explain why my wife left me please
Yikes! Something to do with General Chemistry???
It could be because of induced dipole dipole moment
😂
"Maybe we should see other orbitals"
Because you refused to be hybridized with her. Try sigma bonds
Really nice and comprehensive
Thanks!
this was the explanation I needed for my exam!! Thanks, Chad!
Glad to hear it - hope you do well on your exam!
I love your videos! Thank you for the clear explanation
You're welcome and Thanks!
Thanks Chad! Clear explanation.
You're welcome and Thank You!
Thank you! This is the only video that helped me
Glad you found us - Happy Studying!
You are amazing for thisss. 😊 I understood a whole lot in 16mins
Excellent!
My sincere thanks on a very interested lesson of hybridization.
Glad it was helpful!
This was the explanation i need in my exam
Thank you sir ❤
From 🇮🇳India
You are most welcome - from USA.
i love this man dude his explanations are fire
Glad you think so!
Thank you....I now understand...May God bless you
You're welcome and Thank You!
this whole time, I was just wondering: where does that unhybridized orbital go?? I really appreciate this video as someone who needs to know what is going on in depth, and this explanation was perfect. I have your next videos queued up!
Awesome! Welcome to the channel :)
Great 👍 pure teaching skill ❤
Thank you! 😃
I thank you for actually helping me make sense of this.. very visual, which my professor is not. However, she did go over the expanded octet, and i have tried to utilize your same "promotion" "hybridization" idea and i cannot quite make it make sense. Any chance you could help out before Tuesday's test. We've utilized PCl5, SF6, and IF4+. No big deal if you cant. The short version of electron domains will suffice for sure. Thank you
Phenomenal explanation
Thank you
Couldn't get in touch with my mom, so I smashed that like button for you.
Awesome!
Great teacher 🎉
Thank you
omg thank you so much you're saving me from failing chem rn
You're welcome
The best explanation ever😊
Thank you
Thank u so much 😭😭😭😭😭u saved me😢😢
Most welcome - glad the video helped you!
I love this explanation ❤
Excellent!
thank you so much, this makes so much more sense
Very welcome
Is that A_Semetrical Linear binding of hy to create a bonded Molecular Structure without isometric rotations in a elliptical revolution from a two demential wave length, remaining with Three•Three domains.©
Stephen James Bouw
I really appreciate you class sir.
Glad to hear it - Happy Studying!
Beautiful Explanation
Thank You
thank you for explaining so good!!
Very welcome!
Great video! Thank you
You're welcome!
Hi Chad! Just a quick question for you... Let's say I were to draw the valence bond diagram of hydronium, how would I proceed with the hybridization? I know it would be sp3 but there are only 2 available orbitals.. should I remove an arrow because of the positive charge? I don't know how that would work out... Thank you for the video though!!
At 4:40 how is there only 4 valence electrons? When I see 6. Do you just ignore the 1s2 or something?
if you want to see the full diagram then of course 1s2 would be included, although in hybridization, only the last 2 orbital should be considered as they are the one that will be combined after all.
thank you! could you please explain if C is always obligated to undergo promotion in order to get hybridized?
2:06 where does the 1s2 go??? I'm so confused, every video I've watched doesn't talk about it but they all do it that way
I have blundered, just figured out that hybridization only considers the valence electrons. My bad
I just found this channel and I must say you are a great teacher. I have a question that the geometries of these hybrid orbitals are not fixed these are generally obtained, right?
e.g an sp3 orbital is mostly a tetrahedral but it might also be a pyramidal or V-shaped and why is that
It depends on the number of bonding electron domains and nonbonding electron domains (i.e. lone pairs) on the central atom.
For sp3 hybridized central atoms:
4 bonding domains = tetrahedral
3 bonding / 1 nonbonding = trigonal pyramidal
2 bonding / 2 nonbonding = bent
The molecular geometry is named based upon where the atoms are located around the central atom (it doesn't factor in where the lone pairs of electrons are located). This video from earlier in the chapter expounds on this: th-cam.com/video/2vfQtwYkDtg/w-d-xo.html
Hope this helps!
@@ChadsPrepThankyou it explains! and sorry for replying so late
@@Periwinkle-oo4uz Most welcome.
Wow this is what I've been looking for
Glad you found us!
Thank you for this great explanation
You are welcome!
while promoting that electron from 2s to 2p in carbon does that spin number change?
At 14:20 isn't it a bit wrong that in CO the C's SP has only one electron in the first box? I mean the the first hybridized orbital is fully occupied so there should be both lone electrons in the box (up and down arrows)?
Great video btw so thanks for that!
Hey Tapio! This is one of the 'rules' in orbital diagrams that we fill empty orbitals first before pairing up electrons because electrons in their own orbitals experience less repulsion than in an up/down spin pair. Best way I found to remember this is if you got on a bus you would find an empty seat before sitting next to someone (if they are a stranger anyway)
Ah yea of course! Thanks for the reply!@@ChadsPrep
@@tapio8417 no worries happy to help :)
@@ChadsPrep A nice example indeed 🤘
Thank you Chad.
Very welcome, LF.
I love you. It’s finally clicking
Glad to hear it!
Thanks so much Chad!
You're welcome.
what if we are given the molecular formula and asked to explain the hybridization and determine its type, and then draw Lewis structure and predict the geometry.
So we cannot know the number of electron domains.
Would you mind o share that what type of hybridisation is present in HF? Is it SP or SP2 or SP3? and please explain. TIA
Type of hybridisation for HF is sp3.
Thanks frm india ❤😅😊
You're welcome from USA!
helping me so much before my exam
Awesome!
bless your heart
Thank you
Great video
Thank you
THANK YOU SO MUCH🙏🙏🙏🙏🙏
You're welcome 😊
i’m in organic chemistry now and all this info went down the drain after gen chem lol. thanks for your help!!
Glad the channel is helping you - Happy Studying!
does every bond with every compound ever have hybrid orbitals? or is this a special thing for a few compounds?
Hey Noah - are you asking if all bond types are hybrid orbitals? Only sigma (single bonds) if so
you are good sir
Thank you 😭
You're welcome
راقي استمر
Thank you
THANK YOU SO MUCH
You're VERY welcome!
LOVE
:)
Very helpful
Glad to hear it.
Thankuuuuu🎉
Youuuuuuu're Welcome!
14:26 hello!!! first off, i love your videos and you have the best chemistry channel on here hands down. next, i had a question on this part of the video. you said that one of the electrons in the lone pair on CO is going to be in one of the sp hybrids. where is the other electron? i am trying to to visual lose the sp hybridization with CO but i got a little lost. can you help? thank you😄😃😃
sorry also one more thing! in the beginning at 1:49 , the overlapping s orbitals are not hybrids correct? hybridization only occurs between the orbitals of a single atom? thank you!
Please help 😢😫
Amazing thank u so mucj
You're welcome
I NEVER comment on these... but thank you 😭
You are welcome!
question: Where should I use hybridization? (you don't have to answer)
Legendary
thank you 🥹
You're welcome!