You're very welcome! Glad it helped you to understand. These videos are what I do as I have time, so keep checking back. Catch the entire MCAT Glycolysis Video Series Along with the Glycolysis Cheat Sheet on my website at leah4sci.com/glycolysis
Thanks for your comment! Technically, the NAD+ only picks up an electron from G3P in this redox reaction. G3P is oxidized by the loss of a hydride ion (1 proton + 2 electrons). One of those electrons is then transferred to NAD+, reducing it to NADH. I remind you at 3:27 in the video that hydrogen is defined as 1 proton and 1 electron. The proton (positive charge) is already present on NAD+. The electron completes the transition to NADH.
Glad you liked it! Regarding the video requests, the free videos are what I do as I have time. For more help with this topic, feel free to contact me through my website: leah4sci.com/contact
I'm sorry about that. We have not published Part 3 yet, and unfortunately don't have any immediate plans to do so. For help with topics like this, I recommend joining my MCAT Study Hall. For more details, visit join.mcatstudyhall.com/ or contact me through my website leah4sci.com/contact/
I'm sorry, but we have not yet published Part 3 to this mini-series. I appreciate you watching this far. :) Make sure to download my Glycolysis Cheat Sheet at Leah4sci.com/Glycolysis
Wow, I love how you explained all the orgo reactions in the process, really helped clarify things. Thanks! Where's part 3??
You're very welcome! Glad it helped you to understand. These videos are what I do as I have time, so keep checking back. Catch the entire MCAT Glycolysis Video Series Along with the Glycolysis Cheat Sheet on my website at leah4sci.com/glycolysis
Midterm is tomorrow. Thanks Leah!
Perfect timing!! Hope this helps you ace your exam
This is awesome I just love the way you explained it.... Thanks
Glad it was helpful!
Brilliant explanation
Glad you think so! Thanks for watching. :)
I just started this chapter thx
Perfect timing :)
You deserve more likes
Thanks so much!
i love you leah, you're so epic
Aww thanks so much!
I thought the NAD picks up a the hydrogen that’s been oxidized off of glyceraldehyde 3-phosphate and NAD reduces itself into NADH
Thanks for your comment! Technically, the NAD+ only picks up an electron from G3P in this redox reaction. G3P is oxidized by the loss of a hydride ion (1 proton + 2 electrons). One of those electrons is then transferred to NAD+, reducing it to NADH. I remind you at 3:27 in the video that hydrogen is defined as 1 proton and 1 electron. The proton (positive charge) is already present on NAD+. The electron completes the transition to NADH.
Great explanation. Wud be helpful if u cud put up material on chemical kinetics, haloarenes and electrochemistry.
Glad you liked it! Regarding the video requests, the free videos are what I do as I have time. For more help with this topic, feel free to contact me through my website: leah4sci.com/contact
you're amazing
Awww thanks!
Please make more videos about without calculator calculation especially anti log & log.all of videos were interesting.
Hasib Hasan
From: Bangladesh
Have you seen this series yet? leah4sci.com/mcat/mcat-math-without-a-calculator/
I can’t find part 3.
I'm sorry about that. We have not published Part 3 yet, and unfortunately don't have any immediate plans to do so.
For help with topics like this, I recommend joining my MCAT Study Hall. For more details, visit join.mcatstudyhall.com/ or contact me through my website leah4sci.com/contact/
Don’t see part 3
I'm sorry, but we have not yet published Part 3 to this mini-series. I appreciate you watching this far. :) Make sure to download my Glycolysis Cheat Sheet at Leah4sci.com/Glycolysis
do you still have no plans to make the part 3 that was spoken about?
@@Leah4sciMCAT