I tell students that when electrons are spin-paired, they are in a stable relationship. They can get excited into an "unhappy state". This are great videos for our students to learn bonding!
Great video, the best part was when you noted the scrapping the math jargon. Thanks for putting yourself in other people shoes and reflecting on your knowledge in your own time, much appreciated
I absolutely LOVEEE how you explain every single topic !!! Thank you so much you don’t know how much people you are helping with explaining such complicated things in the easiest way. You are amazing ❤️❤️❤️
Alongside a beautiful voice, that was such a brilliantly simplified illustration. Pleasantly clarified the whole mystery of a Molecular Orbital existing in 2 forms at the same instant. Thank you, ma'am. Wish the world had higher intelligent beings like yourself to question the basics and have a broader outlook. The Big Picture. LOVELY
I have watched several videos to try and understand this concept, and yours is the first one that clicked! I finally get the concept of bonding and anti-bonding molecular orbitals- thank you!!
Electrons: a romantic comedy. Seriously, it makes me more confused when professors bring up MO theory , antibonding orbitals, etc, but don't explain how it's applied to conjugated /aromatic systems behavior...it drives me bonkers....makes everything more confusing. I needed MO theory in plain English and you delivered big time :)
Hi Leah, thanks so much for your videos they really helped me get into my top choice university undergraduate program. All going well I'll start at Oxford in October. Keep up the awesome content!!
What I've learned halfway through the video so far! There are atomic orbitals, which belong to unbonded atoms, and molecular orbitals, which are shared between bonded atoms. Within molecular orbitals, the electrons can either engage in constructive interference or destructive interference. This can also be described as lower energy, stable bonding orbitals, or higher-energy, more unstable antibonding orbitals. And... time to watch the next half of the video! :)
Part two of the video! Sigma bonds are simple overlaps, pi bonds are a different shape above or below the atoms. They have a node in the middle where the pi electrons do not go. The antibonding pi orbitals have a big node/separation between them, making them higher energy, whereas the bonding pi orbitals overlap and have a tinier node. It's like a relationship. If they are angry and high energy and separated they are antibonding and there is no overlap between the pi orbitals and they are unstable. It's like the pi electrons are only on one of the two carbon atoms, giving them different charges and making them unstable. If they have lots of closeness and no distance between they are happy and cuddly and close and stable and low energy! The pi electrons are both equally shared and there are no partial charges. And... time to learn about HOMO and LUMO! Thanks for another great video Leah.
Heyyy I love the explanation and I’m surprised to see that you have literally replied to every single comment. You really care about the viewers. Well I have chem final in 1 day and I’m super scared. 😢 But yea keep us teaching ❤❤❤
I love to stay in contact with my viewers! Thanks for watching, and best of luck on that Chem final! If you find you're looking for more help, I recommend joining my organic chemistry study hall. Details: leah4sci.com/join or contact me through my website leah4sci.com/contact/
@@Leah4sci well I will see in my next year(senior rn I’m a junior)cause rn after this final I will have to prepare for other finals too. Thank you for your support and efforts ❤️
Constructive interference means that the two waves that are in phase add together to form a giant wave and conversely destructive interference means that the 2 waves which are out of phase are cancelling each other out and you get no wave so we can think of an electron as wave or a particle.
' double bond in C2 consists of both pi bonds because of the presence of four electrons in two pi molecular orbitals. In most of the other molecules a double bond is made up of a sigma bond and a pi bond' can someone explain this a bit simpliefied , does carbon molecule have 2 pi bonds between them because it have 2 electron each in bonding pi orbital , and no extra electrons in bonding sigma orbital and antibonding pi orbitals
The carbon-carbon double bond shown in the second example of this video has a single pi bond and a single sigma bond. The pi bond is made of p orbitals that sit both above and below the sigma bond, in a single plane. For help with questions like this and more, I recommend joining the organic chemistry study hall. Details: leah4sci.com/join or contact me through my website leah4sci.com/contact/
Antibonding is when the electrons have very high energy and separate from each other rather than forming a bond. Meaning, they don't exist in the region between the nuclei where you'd expect to finding bonding electrons. I like to think of it as a couple that is very angry with each other and break up
You are an amazing teacher. The way you teach us is very simple and easy to understand. I found your channel and very thankful to you ♥️. I want some more videos from you other than organic chemistry, like other chemistry topic. Your all videos of orgo are just love. You helped us lot. You deserve more than this. Always support and love for you ♥️. 🤗 Looking forward for your response. 🙂
10:35 it looks like jump rope. The bottom molecule has those blue "ropes" both going clockwise or both going anti-clockwise so one comes down while the other comes up and they entangle and bond. The molecule at the tope they are spinning in opposite directions so they smack into each other and repel.
Hlo mam your teaching method is awesome and it helps me to revise concepts fastly and easily why not you start teaching for Indian exam JEE please ,and lots of respect and love from india♥️♥️♥️
Can you explain SO³ to me? Is it shaped more like a shuttlecock or do the oxygen flare out to a more perpendicular shape, when they are compared to the Sulphur-S lone pair axis?
I'm sorry, but I don't offer tutoring over social media. For help with questions like this and more, I recommend joining the organic chemistry study hall. Details: leah4sci.com/join or contact me through my website leah4sci.com/contact/
Just to clarify madam, do anit bonding and bonding orbtials happen or exist at the same time in the same 2 atom? Eg. If i have 2 Li atoms will their bonds have both antibonding and bonding orbitals at the same time?
I sort of like this, but don't understand why there can't be one electron in each hydrogen molecule orbital. It might simply be an unlikely and essentially unstable configuration, no more stable than two separate hydrogen atoms, so just the same as having both electrons in the antibonding orbital.
When the 2 hydrogen atoms each have one electron in their respective orbitals, they are lone H atoms, unstable due to being unpaired. However if they come together at high energy you get the antibonding molecular orbital (vs the single electron atomic orbital)
can i ask a quastion? why antibonding has a higher energy level than bonding? i already search article but i cannt understant can u explain to me? Thx a lot
It has to do with the presence of the node between the nuclei of the two bonding atoms. The antibonding orbital is higher in energy because of the decrease in electron density between those nuclei. In other words, the electrons have less freedom of movement in an antibonding orbital and remain partitioned to either side.
@@Leah4sci i was asking peoples in the comments section, that if there are any jee aspirant who are watching your videos. Lemme explain, JEE is one of the most toughest examination in the world, many students (~1 million) in India🇮🇳 appears in it. I'm too a Jee aspirant. And your videos are helping alot, this concept was harder for me to understand from my teachers, but you made it clear to me, Thanks ma'am for your videos.
Can someone briefly explain hyberdrization? I thought i understood it (2 bonds for sp, 3 bonds for sp2, 4 bonds for sp3) but there seems to be exceptions, so i'm not really sure why those happen
I'm sorry, but I don't offer tutoring over social media. For help with questions like this and more, I recommend joining the organic chemistry study hall. Details: leah4sci.com/join or contact me through my website leah4sci.com/contact/
I am not exaggerating, but This Video is the best definition of being underrated. One of the perfect analogies I have ever witnessed. Wow. Simply Wow.
Wow, thanks so much for your kind words!
ratio
Fr
I tell students that when electrons are spin-paired, they are in a stable relationship. They can get excited into an "unhappy state". This are great videos for our students to learn bonding!
Thanks for sharing that, and I'm so happy to help!
I graduated from pharmacy college last year, you helped me a lot in Organic chemistry through out the years,
so thank you a lot.
You're very welcome. Congratulations on graduating from pharmacy college!!
Great video, the best part was when you noted the scrapping the math jargon. Thanks for putting yourself in other people shoes and reflecting on your knowledge in your own time, much appreciated
You're so welcome! I remember the things I wish I had when I was in your shoes and try to provide it
Thank you. You made anti-bonding crystal clear.
You're very welcome, happy to help!
Thank you for being so calm and patient
You're very welcome!
I am regretting for not watching your videos during my first years when I was struggling with hybridization. Keep going your explanation is the best 💞
So nice of you! Thanks for watching.
I absolutely LOVEEE how you explain every single topic !!! Thank you so much you don’t know how much people you are helping with explaining such complicated things in the easiest way. You are amazing ❤️❤️❤️
You are so welcome!
Alongside a beautiful voice, that was such a brilliantly simplified illustration. Pleasantly clarified the whole mystery of a Molecular Orbital existing in 2 forms at the same instant. Thank you, ma'am. Wish the world had higher intelligent beings like yourself to question the basics and have a broader outlook. The Big Picture. LOVELY
Awww, thanks so much for your kind words. I'm so happy to hear that my videos are helping you to understand organic chemistry better.
Down bad.
I truly cannot put into words how much I appreciate these videos. Things are FINALLY clicking for me
Yay, I'm so glad to hear it! Use my syllabus guide to help you match all my resources to whichever topic you're working on: leah4sci.com/syllabus
4:28 I thought the analogy was gonna be weird, until it sent shivers down my spine because of how good and well explained it was, God DAMN.
Wow, thanks so much! Glad it resonated with you!
Leah, I LOVE YOU... your videos are something everyone needs to see chem student or not!!!
Awww, you're so welcome
I have watched several videos to try and understand this concept, and yours is the first one that clicked! I finally get the concept of bonding and anti-bonding molecular orbitals- thank you!!
Wow! So glad that this helped it click for you!
Electrons: a romantic comedy. Seriously, it makes me more confused when professors bring up MO theory , antibonding orbitals, etc, but don't explain how it's applied to conjugated /aromatic systems behavior...it drives me bonkers....makes everything more confusing. I needed MO theory in plain English and you delivered big time :)
haha yup! I find that if you given chemistry/reactions human characteristics, everything suddenly makes more sense. Glad it helped
That was my same problem when I was taking Orgo. They always bring up anti-bonding and bonding but never explain it in essence.
Have no words to thank..have been searching for the best explanation of MOT in youtube then got blessed by this❤😊
Awesome, I'm thrilled to hear how much this is helping you!
Hi Leah, thanks so much for your videos they really helped me get into my top choice university undergraduate program. All going well I'll start at Oxford in October. Keep up the awesome content!!
Oh wow that is absolutely amazing!! Congratulations Nikolas!
@@Leah4sci thank you so much!!
What I've learned halfway through the video so far!
There are atomic orbitals, which belong to unbonded atoms, and molecular orbitals, which are shared between bonded atoms.
Within molecular orbitals, the electrons can either engage in constructive interference or destructive interference. This can also be described as lower energy, stable bonding orbitals, or higher-energy, more unstable antibonding orbitals.
And... time to watch the next half of the video! :)
Part two of the video!
Sigma bonds are simple overlaps, pi bonds are a different shape above or below the atoms. They have a node in the middle where the pi electrons do not go. The antibonding pi orbitals have a big node/separation between them, making them higher energy, whereas the bonding pi orbitals overlap and have a tinier node.
It's like a relationship. If they are angry and high energy and separated they are antibonding and there is no overlap between the pi orbitals and they are unstable. It's like the pi electrons are only on one of the two carbon atoms, giving them different charges and making them unstable.
If they have lots of closeness and no distance between they are happy and cuddly and close and stable and low energy! The pi electrons are both equally shared and there are no partial charges.
And... time to learn about HOMO and LUMO! Thanks for another great video Leah.
Glad you're learning so much!
Leah, gal, woman, may you be blessed with health, wealth & time to enjoy it...absolutely fabulous lesson
Thanks so much, and glad you enjoyed the lesson!
Wow.
Wow....love the people analogy! I m really starting to understand this topic! Thanx!
Happy to hear that you're understanding!!!
Wow this was I needed
In my college they taught this last week
So for preparation I needed
Thank u
Talk about perfect timing! I'm glad the video came when you really needed it.
This is the best video I have found to date. No joke.
Wow, thanks for the compliment! Hope the video helped. :)
Thank you! Video was very sweet and informative! Your voice is very calming, I’ve been stressing so much over this. Thank you very much!!
Aww thanks so much, I appreciate that and I'm thrilled that my video helped ease your mind
Even after 3 years , this video proves to be very very useful ❤
So glad to help!
I love LOVE LOVE!! the way you explain. God bless you, seriously. Thank you so much!
Awww, you are so welcome!
I had some difficulty in understanding this,till I watched this video!.
Thanks Leah!
Glad it was helpful!
that is exactly what I want to find. Simple and thoughtful. Amazing explanation. Thank you
You're very welcome!
This video the content on your website help me immensely with self-teaching.
Glad to hear it!
Literally amazing analogy so easy to understand now- and easy to recall the concept with this way of explanation
Great to hear!
Finally I got to know how free radical separation works... thanks!
Yay! So happy that you understand, and you're so welcome!
Definitely deserved thumps up
thanks :)
Hi Ms Leah, I enjoyed your explanation and the expressions of the cartoons. Thanks, Kasi
You are so welcome!
Best Tutor Ever❤
Aww thanks!
Liked the story. Great way to teach, and longer we will remember this. 😀
That's my goal, glad it resonated with you!
Nicely explained ❤️❤️
Love from Kashmir
Thank you! Love back from NY
Thank u so much for such a great explanation ...u made it easy 👍
Glad to hear that. You're so welcome.
You made optical isomerism very easy to understand 😀
Glad you found my methods easy to understand :)
@@Leah4sci 🥰🌸👍
you the man homedog
Happy to be 'the man'! Lol
Thank you, this was very helpful :)
You're very welcome!
I have to make a PPT for this topic but i am not good in chemistry but now i think i can make it this video is really helpful
Awesome, happy to hear it!
Was looking for the physical approach and got super excited.. for 2 seconds xD
Thanks for watching, anyways! :)
you are seriously saving my a$$ rn tysm
Happy to help!
just what i needed, thanks a lot, no kidding, best explanation ever!!!
Great to hear! You're very welcome.
Heyyy
I love the explanation and I’m surprised to see that you have literally replied to every single comment.
You really care about the viewers.
Well I have chem final in 1 day and I’m super scared. 😢
But yea keep us teaching ❤❤❤
I love to stay in contact with my viewers! Thanks for watching, and best of luck on that Chem final!
If you find you're looking for more help, I recommend joining my organic chemistry study hall. Details: leah4sci.com/join or contact me through my website leah4sci.com/contact/
@@Leah4sci well I will see in my next year(senior rn I’m a junior)cause rn after this final I will have to prepare for other finals too.
Thank you for your support and efforts ❤️
Loved it ...
Made me understand it in minutes
Thank you
Glad it helped!
This was such a great video, thank you. Studying for my biochem midterm right now and was very confused on this
Glad it was helpful! You're very welcome.
Thank you so much for chemistry easy to understand and teach for us .
You're very welcome. It's my pleasure!
Constructive interference means that the two waves that are in phase add together to form a giant wave and conversely destructive interference means that the 2 waves which are out of phase are cancelling each other out and you get no wave so we can think of an electron as wave or a particle.
Thanks for watching! :)
Thanks for clearing my doubt
Happy to help clear things up for you!
I have benefited a lot, thank you
I hope my doctor will teach us like you
Pharmacy student from Iraq
I'm glad you benefited from the video. And if your doctor doesn't teach this way, come back to my channel for more :)
My Leah!😊
Thanks so much for this☺️
You're so welcome!
' double bond
in C2 consists of both pi bonds because of the
presence of four electrons in two pi molecular
orbitals. In most of the other molecules a
double bond is made up of a sigma bond and
a pi bond' can someone explain this a bit simpliefied , does carbon molecule have 2 pi bonds between them because it have 2 electron each in bonding pi orbital , and no extra electrons in bonding sigma orbital and antibonding pi orbitals
The carbon-carbon double bond shown in the second example of this video has a single pi bond and a single sigma bond. The pi bond is made of p orbitals that sit both above and below the sigma bond, in a single plane.
For help with questions like this and more, I recommend joining the organic chemistry study hall. Details: leah4sci.com/join or contact me through my website leah4sci.com/contact/
🤓 thanks! Wanted clarification for antibonding
Antibonding is when the electrons have very high energy and separate from each other rather than forming a bond. Meaning, they don't exist in the region between the nuclei where you'd expect to finding bonding electrons.
I like to think of it as a couple that is very angry with each other and break up
You are an amazing teacher. The way you teach us is very simple and easy to understand. I found your channel and very thankful to you ♥️. I want some more videos from you other than organic chemistry, like other chemistry topic. Your all videos of orgo are just love. You helped us lot. You deserve more than this. Always support and love for you ♥️. 🤗 Looking forward for your response. 🙂
Thanks for the feedback and suggestions Sohag
10:35 it looks like jump rope. The bottom molecule has those blue "ropes" both going clockwise or both going anti-clockwise so one comes down while the other comes up and they entangle and bond. The molecule at the tope they are spinning in opposite directions so they smack into each other and repel.
ooh I love it, sounds like a fun way to look at it
thannks a lot!
Amazing video👍 nicely explain.
Thanks so much! Glad you enjoyed it Anup
Very well done!
Thanks Debra
great explanation 💗💗
Glad it was helpful!
Hlo mam your teaching method is awesome and it helps me to revise concepts fastly and easily why not you start teaching for Indian exam JEE please ,and lots of respect and love from india♥️♥️♥️
Thank you! I'm not familiar enough with the JEE exam
@@Leah4sci no problem mam you keep on teaching us in the way your teaching 🥰🙏
you saved me Leah 😊
So glad to help!
Thank you so much for this 💐
You're very welcome!
great video
thanks!
Great video!
Thanks!
i luv this woman
Thanks!
Can you explain SO³ to me? Is it shaped more like a shuttlecock or do the oxygen flare out to a more perpendicular shape, when they are compared to the Sulphur-S lone pair axis?
I'm sorry, but I don't offer tutoring over social media. For help with questions like this and more, I recommend joining the organic chemistry study hall. Details: leah4sci.com/join or contact me through my website leah4sci.com/contact/
Just to clarify madam, do anit bonding and bonding orbtials happen or exist at the same time in the same 2 atom? Eg. If i have 2 Li atoms will their bonds have both antibonding and bonding orbitals at the same time?
The energy within a bond is always fluctuating and so the electrons will move between bonding and anti-bonding
antibonding always seems counterintuitive, that node makes sense though because the signal or wave can be continuous still even if it cycles
Thanks for watching!
thank you for making horrible topic ,beautiful. Analogy of persons with bonding and anti bonding is superb.
You're welcome; I'm so happy to hear that I've helped you love the topic!
I sort of like this, but don't understand why there can't be one electron in each hydrogen molecule orbital.
It might simply be an unlikely and essentially unstable configuration, no more stable than two separate hydrogen atoms, so just the same as having both electrons in the antibonding orbital.
When the 2 hydrogen atoms each have one electron in their respective orbitals, they are lone H atoms, unstable due to being unpaired. However if they come together at high energy you get the antibonding molecular orbital (vs the single electron atomic orbital)
So good thank you
You're welcome!
can i ask a quastion? why antibonding has a higher energy level than bonding? i already search article but i cannt understant can u explain to me? Thx a lot
It has to do with the presence of the node between the nuclei of the two bonding atoms. The antibonding orbital is higher in energy because of the decrease in electron density between those nuclei. In other words, the electrons have less freedom of movement in an antibonding orbital and remain partitioned to either side.
Too good appreciate it
You're so welcome!
Just perfect 🔥
Thank you!
excellent excellent excellent...
Thank you so much 😀
Any jee aspirant? 🇮🇳
I'm unsure of what you're asking. Let's stick to questions on the video!
@@Leah4sci i was asking peoples in the comments section, that if there are any jee aspirant who are watching your videos. Lemme explain, JEE is one of the most toughest examination in the world, many students (~1 million) in India🇮🇳 appears in it. I'm too a Jee aspirant. And your videos are helping alot, this concept was harder for me to understand from my teachers, but you made it clear to me, Thanks ma'am for your videos.
Hyeee,,, your method is amazing,,,
Thank you
@@Leah4sci welcome😊
Can someone briefly explain hyberdrization? I thought i understood it (2 bonds for sp, 3 bonds for sp2, 4 bonds for sp3) but there seems to be exceptions, so i'm not really sure why those happen
I cover it in detail here: leah4sci.com/HYBRIDIZATION
SUBSCRIBED!
Thanks! I appreciate it!
So I need to learn higher math for a better understanding then the analogy?
Yes. This video only covers the very basics so that you know what you need to know for a typical Organic Chemistry course.
Hi
Hhhhhhhh
Hello? Thanks for watching. :)
I have adopted you as my primary teacher in Organic Chemistry II. 🍉🍉
Aww, thank you!
11:48 kinda scary 😳 and interesting 😅
lol
Super mam
Glad you like it!
final year of university and i still cant grasp this one concept
I'm sorry to hear that! For more help, contact me here: leah4sci.com/contact
Very scientific start of the video. Know your limitations, lady.
Thanks for watching anyways!
you>>>a Vanderbilt education
Wow, thanks!
🙏🙏🙏
Glad it helped!
Hi! What would an example of something that would case the H-H to go from the low energy molecular orbital Tom the high energy molecular orbital
I'm sorry, but I don't offer tutoring over social media. For help with questions like this and more, I recommend joining the organic chemistry study hall. Details: leah4sci.com/join or contact me through my website leah4sci.com/contact/