this style of video is so much more helpful than just watching somebody do a voice over, actually being able to watch somebody talk to you makes such a difference. Thank you for this
Very intricately informative videos!! I have a question though.. can a ligand displace another from a complex? say for example metal aqua ions, with water being the ligand here, can another competitive ligand (e.g. CN) displace the water? if yes, what properties influence this? Thank you
Hey, great video! At 11:16 you said 4 Bidentate ligands and at 11:47 you said 3 Bidentate ligands? Assuming that 3 of them is correct? Just double checking
Great video, but when you were talking about the bidentate ligands in the octahedral structure, did you mean to say "you can only effectively fit three bidentate ligands"?
The complex you drew at the end, with the 3 ethanedioate ions around the metal ion , would still have a coordination number of 6 right (because there are 6 coordinate bonds)..?
hi thank you very much for making these really helpful videos they are a life saver. I might have misunderstood if haem itself is a (multidentate) ligand, and how does a monodentate ligand such as carbon monoxide and cyanide can bind to a haemoglobin replacing the harms instead, as it goes against the chelation effect? i am very likely to have been confused by what I have read up on the topic online and so mixed up some facts here, as I have read that carbon monoxide has a higher affinity for oxygen making haemoglobin unable to associate with oxygen and carry it around - so does carbon monoxide (and cyanide) actually binds to the haemoglobin itself or to oxygen? I would be grateful if you could help me out here. Thanks a lot!
Carbon monoxide binds to haem to replace the water ligand. The CO - haem bond is stronger than the H2O - haem bond so it dissociates less and is diffcult to remove from haem once bound. A ligand substitution reaction occurs between a water ligand with CO.
this style of video is so much more helpful than just watching somebody do a voice over, actually being able to watch somebody talk to you makes such a difference. Thank you for this
this video was very clear and helpful. Honestly, I have learned more in these 11 minutes than I have in the 5 months I've been in college
Big fan of your use of the whiteboard!
+Liam Darby Thanks. Keep it old school ay!
I really hoped to take the A-Level exams this summer and thank you for getting my A. Love your videos.
Glad you like them!
🤣
@@codex2765 What's funny
great chemsplaining, ta! wonderful supplement to our lecture
Heh! Like it - 'chemsplaining'.
Beautiful videos , better than my online chemistry lessons and so engaging !
These videos explain everything wonderfully, thank you so much!
youre a life saver, my exam is in 3 days and i dont even know the topics in unit 5.
You're welcome. Hope the exam went well for you!
I thought it went pretty well, probably couldn't do it without ur dope videos
Brilliant! I hope you get the grades you need.☺ Thanks for your support.
@@fatiman5344 Did you pass? xx
I came looking for the reason that transition metals have multiple ionic states, and stayed for the "pigs at the trough".
Thank you so much! I helped a lot! greetings from Germany!
You're very welcome
You have a new fan, thanks for the great break down.
personally, I call the pig ligands from your analogy, ligs
Like that, may steal that from you.
thnk u for existing. ur presence has made chem easier❤❤❤❤
You're very welcome!
Very clear and helpful. Thank you sosososo much ❤️❤️😭
You're welcome!
Very intricately informative videos!! I have a question though.. can a ligand displace another from a complex? say for example metal aqua ions, with water being the ligand here, can another competitive ligand (e.g. CN) displace the water? if yes, what properties influence this? Thank you
Hey, great video! At 11:16 you said 4 Bidentate ligands and at 11:47 you said 3 Bidentate ligands? Assuming that 3 of them is correct? Just double checking
Great video, but when you were talking about the bidentate ligands in the octahedral structure, did you mean to say "you can only effectively fit three bidentate ligands"?
Thank you so much for your videos
You're very welcome!
Can you do a video on 'ligand substitution' please ?
Excellent as always. Thank you
The complex you drew at the end, with the 3 ethanedioate ions around the metal ion , would still have a coordination number of 6 right (because there are 6 coordinate bonds)..?
Your videos are really helpful, if you could please can you use a mic so what you say is much clearer. Thank you!
11:14 you say we can effectively fit 4 bidentate ligands but when you draw you can only fit 3. 6/2=3 ligands
Great explanation :)
Thank you for the video, greetings from Nigeria
My Chemistry God
Thankyou so much for these amazing vedios!!!You have done a great great job...
You are literally saving my Alevels omg thank you
You're welcome! 😊
Hi great video, I was just wondering if this is suited for the AQA spec
Yes. Absolutely!
sir u r really good :)
Pig analogy is brilliant 😂👍🏽
You're a saint, thank you so much !!
Sir you are a legend
great video
Thanks!
thanks
Grande Calvooo, leyendaaaa
Description. Explore this video to find out what *legends* are... Haha
+Yuu Amane Ha!!! I think that would be a big video! Changed it, thanks for pointing it out! #Legendaryligands
hi thank you very much for making these really helpful videos they are a life saver. I might have misunderstood if haem itself is a (multidentate) ligand, and how does a monodentate ligand such as carbon monoxide and cyanide can bind to a haemoglobin replacing the harms instead, as it goes against the chelation effect? i am very likely to have been confused by what I have read up on the topic online and so mixed up some facts here, as I have read that carbon monoxide has a higher affinity for oxygen making haemoglobin unable to associate with oxygen and carry it around - so does carbon monoxide (and cyanide) actually binds to the haemoglobin itself or to oxygen? I would be grateful if you could help me out here. Thanks a lot!
Carbon monoxide binds to haem to replace the water ligand. The CO - haem bond is stronger than the H2O - haem bond so it dissociates less and is diffcult to remove from haem once bound. A ligand substitution reaction occurs between a water ligand with CO.
Single handedly carrying AlleryTutors.
Thank you Chris Harris! :)
thank you so much for this!
King.
Is Fe2O3 a complex?
Thank you!
hi l am student l need to now how can me preperation complex Hgso4 with etheylen di amine and anther element and please can you help my
Great help thanks!
So perfect thanks
Glad you like it!
Thank you so much!
Good vid
I bet he is a good saver
Thank you
nice
thanks!
You're welcome!
:)
thanks a lot
Very... e f f e c t i v e
What's difference between nucleophiles and ligands?
Ligands form a dative covalent bond with a central metal ion.
Certi
Pigs pigs pigs :)
anyone from 2k18
Thank you!
Thanks!