@missfun24 The videos on my channel are not of high quality because I had to tape it myself. They are just for the purpose of helping my students. If it's not helpful to you, you don't need to watch it.
am sorry. i was juz givin my opinion.i know tat it;s very genuine of u 2 do videos for the use of others. i commented like tat so tat it will b better , tat's all. didnt mean anythin else. sorry
@DailyIdeas You are right that the problem is not solved in this "% Ionization 1a" video. You need to watch "% Ionization 1b" to see the remainder of the problem. YouTube caps the video length at 10 minutes. As a result, I had to split the video into 2 parts.
maybe this guy shouls start talkin confidently n loudly! anyway, the sound of chalk is louder than his voice.
missfun24 1 year ago
@missfun24 The videos on my channel are not of high quality because I had to tape it myself. They are just for the purpose of helping my students. If it's not helpful to you, you don't need to watch it.
EnderlePhD 1 year ago 3
@EnderlePhD
am sorry. i was juz givin my opinion.i know tat it;s very genuine of u 2 do videos for the use of others. i commented like tat so tat it will b better , tat's all. didnt mean anythin else. sorry
missfun24 1 year ago
Comment removed
FirelionGuate 1 year ago
@FirelionGuate After you get [H+] from the equilibrium table, divide by the original concentration given and multiply by 100%.
EnderlePhD 1 year ago
Didnt even solve the problem :(
DailyIdeas 1 year ago
@DailyIdeas You are right that the problem is not solved in this "% Ionization 1a" video. You need to watch "% Ionization 1b" to see the remainder of the problem. YouTube caps the video length at 10 minutes. As a result, I had to split the video into 2 parts.
EnderlePhD 1 year ago