I absolutely loved the illustrations of the periodic table with dots. It made things a lot easier and convenient to understand. Thank you so much for this!
Rewatched my lectures and re-rea my book several times and it made it overcomplicated. Light bulb moment when you said that the other trends followed the first. Makes so much sense now, thank you!
I think they believe that any form of thanks is simping. They are confused because they have never been thanked for anything so they have no form of reference
Such a sweet comment. Thank you! Hang in there…chemistry can be really interesting and useful, but it doesn’t seem that way if it’s presented dreadfully.
Your video is short, but your content is immense nor tremendously. I thank you I needed this. I will keep watching it and I will share with my friends whom I have been strangling with in this topic. From South Africa.
Nice, I have gone through so many TH-cam channels and I think yours gave me a very much clearer picture. Just like what you said at the end of your video knowing the reason behind why the elements behave so makes it easier. Unlike other videos they just tell us this is so without explanation. Tq
Thank you so much for this. I was sick and couldn't attend the lecture where this lesson was explained. I had a hard time reading through my textbook, this video has cleared so many points and confusion.
🎯 Key Takeaways for quick navigation: 00:03 Atomic *radius increases from top to bottom within a group on the periodic table, explained by the addition of electron shells. The snowman analogy helps visualize this trend.* 02:09 Within *a period, atomic radius decreases from left to right due to increased nuclear attraction as protons and electrons are added.* 05:22 Ionization *energy increases from left to right across a period, as smaller atoms hold electrons more tightly. In a group, ionization energy decreases from top to bottom, where larger atoms make it easier to remove electrons.* 08:33 Electronegativity *increases from left to right within a period on the periodic table, and it decreases from top to bottom within a group. This trend is influenced by the atom's size and its ability to attract electrons.* Made with HARPA AI
this really helped me on how to create our own periodic table in physical science senior high. I really appreciate this thank you so much sir from the Philippines ❤️
I really appreciate this Sir. I had hard time reading text book without success. This video helped me so much as I couldn't attend this lesson at school.
That is an excellent explanation I watched many videos trying to get the clues to understand this topic and this is the best video! easy to understand.
Thank u soooo soooo much for helping me in this chapter U r even better than our chemistry teacher and now I will not hv to go through the book everytime Thank u soooo soooo much Stay safe I am watching from Pakistan by the way
when you are saying that the radius is smaller from left to right is that because s effective is stronger from left to right? is that what you are saying with "pulled tightly together" ?? thank you so much for this video!!
I have a question. Is the reason that the attraction of nucleus subdues the repulsion of electrons because nucleus are concentrated and confined in one space, while electrons are scattered around more singularly?
Hi Angelika. Making your presentations less boring is a noble pursuit. Your viewers will appreciate it! I use Apple’s Keynote app on a MacBook Pro to make my animations. I record with Screenflow (which records my face, voice, and screen all at once) and then I can do some screen zooming in the editing phase too. I hope this helps. Good luck!
Sir! You are a great person. I loved your teaching, and I could understand everything in one go. I am finding you underrated, I thought you must be having atleast 5 million subs. Congrats you have gained 1 more sub. LOVE FROM INDIA
They do have filled valence shells, yes. That’s why they usually don’t react. There’s not much of a need to. Some of the heavier noble gases are more likely to react in certain situations, but generally speaking the noble gases are considered somewhat inert for the exact reason you mentioned.
@@duellchemistry I meant about the electronegativity. Some of them like krypton have it quite high, whilst some others have it at 0 as expected. You mentioned "usually don't react*, by that do you mean chemical reactions are still possible with noble gases involved?
How do you know which element has greater atomic size based on the trend if they are closely the same in size but different in group and period like beryllium and aluminum? Magnesium and Gallium? Thanks for the response.
I am having quite a bit of trouble understanding why Lithium's electronegativity is so low, could this be explained perhaps? I just did not quite get the explanation. Thank you!
Im a middle schooler and we have this as our lesson currently,and i just wanted to ask if lanthanides and actinides also are part of the periodic trend?if so do these properties affect them too?
I absolutely loved the illustrations of the periodic table with dots. It made things a lot easier and convenient to understand. Thank you so much for this!
I’m very glad you liked it! Thank you.
@@duellchemistry literally it was the most helpful thing !
This is the best explanaition I've ever seen
I agree
oh just thank you from the bottom of my heart!
i actually learnt something, rather than mugging up the textbook.
Rewatched my lectures and re-rea my book several times and it made it overcomplicated. Light bulb moment when you said that the other trends followed the first. Makes so much sense now, thank you!
Yes!
Thank you so much for this I have been trying to learn this for 4 hours with no success but this was really easy to understand. Thanks
simp
Bannderson _ how are they a simp?
I think they believe that any form of thanks is simping. They are confused because they have never been thanked for anything so they have no form of reference
Even me
I like how the vibe is so light and not depressing for me to study to, this really sets you apart from other creators
Such a sweet comment. Thank you!
Hang in there…chemistry can be really interesting and useful, but it doesn’t seem that way if it’s presented dreadfully.
Your video is short, but your content is immense nor tremendously. I thank you I needed this. I will keep watching it and I will share with my friends whom I have been strangling with in this topic. From South Africa.
I wish all teachers had video and audio quality this good. Goodjob, I learned a lot fast and well, keep it up!
Nice, I have gone through so many TH-cam channels and I think yours gave me a very much clearer picture. Just like what you said at the end of your video knowing the reason behind why the elements behave so makes it easier. Unlike other videos they just tell us this is so without explanation. Tq
This video is extremely simple, sleek, and easy to understand. Your periodic table was so simple, and this video helped me so much!
Thank you! I’m happy to read that.
thank you ! You explained it so well and put everything my teacher said in a better and understanding way. This was really helpful. THANK YOU :)
Belen Rodriguez Happy to help!
Exactly !
30 mins before the test and im dying, thank god I found this vidddd
Thank you so much for this. I was sick and couldn't attend the lecture where this lesson was explained. I had a hard time reading through my textbook, this video has cleared so many points and confusion.
Thanks so much teach! My teacher recommended you, now the whole school knows about you!
I could not make any real sense of the periodic table until I watched this , illustrated with dots, thank you so much.
🎯 Key Takeaways for quick navigation:
00:03 Atomic *radius increases from top to bottom within a group on the periodic table, explained by the addition of electron shells. The snowman analogy helps visualize this trend.*
02:09 Within *a period, atomic radius decreases from left to right due to increased nuclear attraction as protons and electrons are added.*
05:22 Ionization *energy increases from left to right across a period, as smaller atoms hold electrons more tightly. In a group, ionization energy decreases from top to bottom, where larger atoms make it easier to remove electrons.*
08:33 Electronegativity *increases from left to right within a period on the periodic table, and it decreases from top to bottom within a group. This trend is influenced by the atom's size and its ability to attract electrons.*
Made with HARPA AI
Just loved it.... Superb and crisp explanation.... Saved my hours and higher retention....
thank you so much i’ve been so confused on these trends
To the point, crystal clear and easier to understand. Much appreciated :)
Holy smokes the simple explanation is perfect. Thank you, best video about this I've seen
Thank you so much, I have a test coming, and was stressing over figuring out the trends, this helped me so much
The animation plus the explanation, bro this is very clear, thank you so much. Keep on the good work
Thank you!
THANK YOU SOOOOOO MUCH. This video helped me cover 3-4 subtopics in few minutes that I thought would take me dayss.
I’m glad to hear it!
i wish you were my chemistry professor so it actually be beneficial in going to class.
Thank you for this amazing illustration.
Dexter
Very clearly and simply explained with great animations. Amazing video, thank you!
this really helped me on how to create our own periodic table in physical science senior high. I really appreciate this thank you so much sir from the Philippines ❤️
today i learned the topic which i was struggling for months to learn thank you so much : )
What a wonderful explanation for all the trends. I truly appreciate it. I have been struggling with these concepts and this video really helped!
I’m glad it helped!
Absolutely Excellent. Cleared all my doubts.
Great....this helped me really well
I really appreciate this Sir. I had hard time reading text book without success. This video helped me so much as I couldn't attend this lesson at school.
That is an excellent explanation I watched many videos trying to get the clues to understand this topic and this is the best video! easy to understand.
I can't express how much you helped me with that video, Thank you soo much
Excellent visual and verbal explanation.
This man saving lives out here 🙏🏻
🤣
@@duellchemistry Bros still reading the comments lol 🤣
Sure do, man. 👍🏻
Very informative and clear video. Thank you.
great video!! I think that your description of ionization energy with regard to "larger atoms" was especially helpful!! thank you!
amazing images and explanation, I finnaly understood the periodic trends. Thank you so much!
absolutely loved this! brilliant! well done 🎉❤
I really understood this, and learnt a lot from it. Thanks!!
You’re underrated! Thank you so much ☺️
Great video! Very easy to understand!
i am a visual learner and this helped me so much !! thankyou
This was insanely helpful, thank you so much!
simp
You made this very easy to understand, thank you!
The best explanation till date thank you sooo much for this and thank your for your efforts sir
Happy to help!
Thank u soooo soooo much for helping me in this chapter
U r even better than our chemistry teacher and now I will not hv to go through the book everytime
Thank u soooo soooo much
Stay safe
I am watching from Pakistan by the way
graphics are great
Really well done...thank you. Studying for TEAS test so very helpful.
this really help me to understand better for my test, thank you so much
thanks a ton! This helped me clear the fog with the periodic table and trends
This is so concise and easy to follow, thank you so much!
Really loved the explanation thank you very much
Awesome explanation. Thank you!
Amazing animation and super easy to follow through and understand the concept! Well done
when you are saying that the radius is smaller from left to right is that because s effective is stronger from left to right? is that what you are saying with "pulled tightly together" ?? thank you so much for this video!!
This was honestly so helpful, thank you soo sooo much
No Name happy to help!
at 8:06, why is helium, neon and argon's electronegativity blank?
These elements almost never participate in bonds with other atoms because they already have their desired amount of valence electrons.
Thank u sir 😊......awesome explanation
Glad it helped!
GENIUS
i finally figured this out thnks to you :')
tysmm
Great vid man exam tmrw and u saved me helps a lot
I have a question. Is the reason that the attraction of nucleus subdues the repulsion of electrons because nucleus are concentrated and confined in one space, while electrons are scattered around more singularly?
Yes
Amazing Teacher ❤
Such great information! Can I ask what graphics program you are using for your visual graphics diagrams? Thanks!
Hi Jennifer! Thank you. I use Apple’s Keynote for all of my graphics.
@@duellchemistry very visually appealing makes it easier to learn!
Thank you so much...
The topic is explained in a very simple way....
why did this save me thank you
greaatttt video!! super informative
this deserves way more likes.
Thanks, Aaron!
thank u very much I have been trying it to understand for a long time .And after seeing Ur video my doubts are cleared
Hi! What app do you use for your animation? I'm a teacher and I'd like to learn how to make my presentation less boring.
Hi Angelika. Making your presentations less boring is a noble pursuit. Your viewers will appreciate it! I use Apple’s Keynote app on a MacBook Pro to make my animations. I record with Screenflow (which records my face, voice, and screen all at once) and then I can do some screen zooming in the editing phase too.
I hope this helps. Good luck!
thanks for the clear n quick explanation brah
Sir! You are a great person. I loved your teaching, and I could understand everything in one go. I am finding you underrated, I thought you must be having atleast 5 million subs. Congrats you have gained 1 more sub. LOVE FROM INDIA
You’re so sweet! I am glad I could help.
@@duellchemistry 💕❤
Btw why have you stopped adding new videos sir...
Bro thanks so much, this helped a lot. You deserve way more subscribers!! Keep doing what you're doing though, excellent work!👍
You’re sweet. Thanks Alex.
Great video
BRO UR A LIFE SAVER
This was very helpful and so easy to understand ❤. Thank you 🙏
Very relevant and very well done, thank you!
Really clear!
BRO THANK YOU !!!!
This is soo well made! Thanks a lot!
Thank you! ☺️
Thank you!! God bless you!!
I think this just might carry me during my Chem exam tmrw thanks so much man
Best of luck!
i have a chemistry unit test tomorrow thank you so much for this!
Good luck! You’ve got this.
this was so easy to understand oh my goodness thank you I didn't understand anything my teacher explained about this
Thank you so much sir love from India
I m your new student from India 🇮🇳
😎😎😎😎😎😎😎😎
How did you make the animation for this video?? what app are you using?? great video btw
8:16 why would noble gases want electrons? don't they already have full valence shells?
They do have filled valence shells, yes. That’s why they usually don’t react. There’s not much of a need to. Some of the heavier noble gases are more likely to react in certain situations, but generally speaking the noble gases are considered somewhat inert for the exact reason you mentioned.
@@duellchemistry I meant about the electronegativity. Some of them like krypton have it quite high, whilst some others have it at 0 as expected. You mentioned "usually don't react*, by that do you mean chemical reactions are still possible with noble gases involved?
How do you know which element has greater atomic size based on the trend if they are closely the same in size but different in group and period like beryllium and aluminum? Magnesium and Gallium?
Thanks for the response.
Thank u soooo much sir. Your explanation was very easy to understand. Thank u❤
you explained it so clearly! Thank you😭🙏
If red stands for the elements that really really want an electron, then what does orange stand for?
Thank you so so much you actually saved me 🙏
how much picometers (pm) are the atomic radius of the elements on the 7th period (outermost shell)?
I am having quite a bit of trouble understanding why Lithium's electronegativity is so low, could this be explained perhaps? I just did not quite get the explanation. Thank you!
Thank you, this was helpful.
Why do noble gases have electronegativity? they already have full valence shells?
Amazing.
nicely done
Amazing explanations! Thanks alot man this really helped me out
Im a middle schooler and we have this as our lesson currently,and i just wanted to ask if lanthanides and actinides also are part of the periodic trend?if so do these properties affect them too?