Professor Organic Chemistry Tutor, thank you for a basic understanding of Activity Series of Metals in AP/General Chemistry. From the video, the way I understand this material is the metal must be on the left side of the Activity Series for the reaction to work. I will rewatch this video in order to comprehend the material. This is an error free video/lecture on TH-cam TV with the Organic Chemistry Tutor.
Him saying "now iron, is to the right" was his way of saying "yall still listening?" lol. No, but honestly, this guy helps me so much on these exams woah :D
People make use of this series to cement precious metals out of solution. It's easy and doesn't require extra chemicals or heat. If you have a solution of silver nitrate, for example, you can simply place a copper bar in it. The copper ions will replace the silver ions in solution and metallic silver will drop to the bottom of the container. If you let it go long enough, all the silver nitrate will become copper nitrate. Then you can take the copper nitrate solution you have left, and put an iron bar in it. Metallic copper will drop out and the iron ions will go into solution, making iron nitrate. And so on.
If I remember correctly, there are some exceptions within group B metals. Fe is usually 2 plus, Ag is usually 1 plus and there are some more exceptions. Why? Perhaps energy levels, but I do not know much about them either, I assume that university-level chemistry will explain the reasons behind these things very wel.
Solubility Rules - Free Reference Sheet: bit.ly/3AaJdW6
Professor Organic Chemistry Tutor, thank you for a basic understanding of Activity Series of Metals in AP/General Chemistry. From the video, the way I understand this material is the metal must be on the left side of the Activity Series for the reaction to work. I will rewatch this video in order to comprehend the material. This is an error free video/lecture on TH-cam TV with the Organic Chemistry Tutor.
Him saying "now iron, is to the right" was his way of saying "yall still listening?" lol. No, but honestly, this guy helps me so much on these exams woah :D
Sir ur voice clarity is increased so much sir.. Super and thank u very much sir...
People make use of this series to cement precious metals out of solution. It's easy and doesn't require extra chemicals or heat. If you have a solution of silver nitrate, for example, you can simply place a copper bar in it. The copper ions will replace the silver ions in solution and metallic silver will drop to the bottom of the container. If you let it go long enough, all the silver nitrate will become copper nitrate. Then you can take the copper nitrate solution you have left, and put an iron bar in it. Metallic copper will drop out and the iron ions will go into solution, making iron nitrate. And so on.
Fantastic! Thank you so much, this makes the concept more crystal clear. 😁
This helped so much!
Yes sir, jg is smart sir yes sir I would like to call you teacher JG for quarantine sir
Need some help! At 1:40 how do we know it will be Fe +2 cation rather than another iron cation like +3?
If I remember correctly, there are some exceptions within group B metals. Fe is usually 2 plus, Ag is usually 1 plus and there are some more exceptions. Why? Perhaps energy levels, but I do not know much about them either, I assume that university-level chemistry will explain the reasons behind these things very wel.
The Goat
Thanks for helping me understand chemistry😅
Astonishing
Thank you very much
Thank sir
مين هنا في 3 اعدادي☺☺
Why do you have bad audio
i can hear every single word pretty clearly
You have a ear problem
You should check that out in a doctor, man
@@theboogiegamer3872 😂
You need your ears checked