hello! HF is weaker than HI, this is due to the size of HF, bond strength, and bond length. Because HF is so small, it has a hard time getting rid of an electron. The more stable the anion is, the stronger the acid is. In this case, I- is more stable than F- when it loses the H+, so it is weaker. Furthermore, as bond strength increases, the acid becomes weaker. This is because it is harder to break the bond between something like HF than HI. Also, going back to the size, as the bond length decreases, bond strength increases, another reason HF is weaker than HI. Essentially what determines the strength of the acid is its ability to form a stable anion. Hope this helps!
Explained it very well 👍🏻
this is great, thanks
Thank you very much 💗
Thanks
Can you do teleparallelism? Maybe vector calculus.
Very clear!
Ok
great
What is the software used in this video to annotate?
Learn engineering mastery here🇺🇸🇺🇸🇺🇸🇺🇸
3:10 but HF is stronger than HI. isn't it?
hello! HF is weaker than HI, this is due to the size of HF, bond strength, and bond length. Because HF is so small, it has a hard time getting rid of an electron. The more stable the anion is, the stronger the acid is. In this case, I- is more stable than F- when it loses the H+, so it is weaker. Furthermore, as bond strength increases, the acid becomes weaker. This is because it is harder to break the bond between something like HF than HI. Also, going back to the size, as the bond length decreases, bond strength increases, another reason HF is weaker than HI. Essentially what determines the strength of the acid is its ability to form a stable anion. Hope this helps!
@@alinasoi TYSM 🙂
it seems controversial for me. "The more base is electronegative, more easily to pull out POSITIVE proton" - Coulombs law bye bye
👍👍👍👍✅✅✅✅🔔🔔🔔🔔🔔🔔
Thanks