Standard Reduction Potentials of Half Reactions - Electrochemistry
This chemistry video tutorial provides a basic introduction into standard reduction potentials of half reactions. It explains how to identify the strongest oxidizing agent and the strongest reducing agent. Oxidizing agents are found on the left side of the reduction reaction and reducing agents are found on the right side of the reduction. Oxidizing agents have a strong affinity for electrons and reducing agents have a strong desire to give away electrons. This electrochemistry has plenty of questions and practice problems relating to standard reduction potentials.
Intro to Galvanic & Voltaic Cells:
• Introduction to Galvan...
How To Draw Galvanic Cells:
• How To Draw Galvanic C...
Standard Reduction Potentials:
• Standard Reduction Pot...
Cell Potential Problems:
• Cell Potential Problem...
Cell Notation Problems:
• Cell Notation Practice...
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Concentration Cells:
• Concentration Cells & ...
Cell Potential & Gibbs Free Energy:
• Cell Potential & Gibbs...
Cell Potential & Equilibrium K:
• Equilibrium Constant K...
Nernst Equation:
• Nernst Equation Explai...
Electrolysis of Water:
• Electrolysis of Water ...
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Electrolysis of Sodium Chloride:
• Electrolysis of Sodium...
Electrolysis & Electroplating Problems:
• Electrolysis & Electro...
Electrochemistry Practice Problems:
• Electrochemistry Pract...
SAT Chemistry Subject Test Review:
• SAT Chemistry Subject ...
Carbon -14 Dating:
• Carbon 14 Dating Probl...
Beer Lambert's Law:
• Beer Lambert's Law, Ab...
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You are my go to whenever I have an emotional breakdown of not getting what I just read in a complicated book. Thank you for this.
@anvayaiyer5614
3 жыл бұрын
And his voice calms me down instantly
This was posted 3 years ago but I still use these videos in 2021... Truly knowledge is power.. 🙌 Really grateful for opening my mind.. Wish evryone the very best in your journey.. 😇
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Thank you Mark Walhberg of the Chemistry world
I am likely going to make an A in my chemistry class this semester and it would not have been possible without your videos. Thank you.
Thank you for clarifying all doubts I had.
E+ spon in Forward Direction Non-spon in Reverse Direction. 3:34 - By Adjusting the pH we csn adjust the Cell Potential of the Reaction. 4:45 - the one with higher cell potential will act as Better oxidizing or reducing Agent 6:56 - Anything that's neutral/positively charged can behave as Oxidizing agent - Neutral/Negatively charged can behave as reducing Agent.
@raajkumar8039
4 жыл бұрын
Pardon my notes :D
@anvayaiyer5614
3 жыл бұрын
It helped me thanks
@Engr9
2 жыл бұрын
11:01 Metals and negatively charged ions tend to be reducing agents. Nonmentals and positively charged ions tend to be oxidizing agents
Thank you!!! *Organic Chemistry Tutor*
Too good video... clears my concept👍
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@zerigabireyassu881
5 жыл бұрын
what u have is really best of best. I never accosted with as good teacher as you.
As always, your videos are the best.
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you are a very special man thank god for your mind and ability to teach
I have not seen such brilliant man thank you very much
makes so much sense thank you
Well done.
This topic really made sense after this video.
Thank you for the videos! There's only one thing that would make the videos even better(at least for me) is that some words aren't clear enough I think because you say them quickly. I hear south potential in this one for example
The video is very wonderful. It makes the topic very clear..sir if you add some mathematical examples on this topic it will be more helpful. ☺☺
Solvedd my biggest confusion 🌺🌺
thanks so much
idk why but you and my prof in analytical chem explain lesson in the same sequence (sometimes the same examples are given as well)
The great 💯
Thank you
Guys don't forget to like this great videos!
Great!
In 7:10, How can it be if an is negatively charge it has the ability to give away electrons?
Thanks again
Is there a way to calculate the cell potential
is cu+(aq) have low reduction potential ??
OMG Finally 🤩🥳🥳
Nice
When the e- is on the right side of the equation isn’t that supposed to be oxidation? The video said it was reduction so I’m even more confused now.
Sir how can we solve to get the volts or E°, if we don't have the table?
@anvayaiyer5614
3 жыл бұрын
No way ig
NiCe bRo
The word choice is quite enticing (pun intended)
Why is the standard electrode potential always expressed for the process of reduction rather than oxidation? Thank you
@willieriley6079
4 жыл бұрын
Thats just how the tables are made
@mirjanavrdoljak899
4 жыл бұрын
@@willieriley6079 why thats? why they are not made for the oxidation process- why exactly for the reduction process? thank you
@willieriley6079
4 жыл бұрын
Mirjana Vrdoljak it’s more useful i suppose because electrons flow spontaneously from something being oxidized to something being reduced as in a galvanic cell like a battery and it works with Nernst equation or the delta G= -nFE equation where positive potential E would make for a spontaneous reaction due to -G. Also just flipping the reaction itself is oxidation so it’s not too difficult, but my guess is the reduction helps more for knowledge on practical uses.
Thank you ..but I want your name and your own photo please where can I get them😪
well, aren't these reactions reversible?!
“Now let’s see if you were paying attention” *immediately restarts video*
👍
Zn 2- ion (never heard of such thing) 😂😂😂😂