This is by far the most, concise, informative, easy to understand screencast/video i've seen on this topic. Thank you for the time you spent to make this. In Bio 20 and have a quiz tomorrow!
I'm learning this right now in my college Biology III class. This video helped me understand cellular respiration more than any of the videos I've seen before!
Thanks, Nyxia! Glad it was useful. I actually made an updated version of this where you CAN'T hear my students squealing in the background and all the graphics are much tidier. It's linked here. ua-cam.com/video/2_ceHsFmLVk/v-deo.html&ab_channel=BOGObiology Sending love from Boston! -BOGO
Thanks, Mansee! I keep meaning to make a newer version of this video (I made this in my tiny, noisy teacher's office between classes!) Someday maybe I'll have time!
Hello again! Glad you found the more recent version of this video; this is the original one I made quickly in between classes, which is why it's so messy. (No mnemonics here haha) Take care!
Thanks, Nandini! I actually made a new version, which is linked here ua-cam.com/video/2_ceHsFmLVk/v-deo.html&ab_channel=BOGObiology It's tidier and has better graphics.
I actually used to have my students figure out "equations" for these using little icons to keep track of everything. There's also a new (better) version of this video at ua-cam.com/video/2_ceHsFmLVk/v-deo.html that has a whole grid to help you keep track of the ATPs, NADHs, and FADH2s . Take care and sending love from Boston! -BOGO
Thanks, Michael! I'm working hard on an updated video that will have better diagrams and a more comprehensive approach. If only there were more hours in the day!! Sending best wishes from Boston! -BOGO
@@mtalbert1000 Thanks! That makes me super happy. Out of curiosity, are you in high school or at university, what courses are you taking, and where are you writing from?
@@BOGObiology I'm actually writing from the Land of Enchantment/New Mexico. I retired from law enforcement and started a new career in health care. I'm currently taking chemistry and anatomy/physiology. I actually graduated from college back in 1994. Also science was not my favorite subject. Therefore your videos are instrumental and easy to understand. I need all the assistance I can get. Ha
@@mtalbert1000 Sounds like a really interesting journey! I worked in emergency services as a medic for a number of years and also taught in juvenile hall before moving to teaching at a regular school. I learned a TON about negotiation, nonviolent de-escalation, and how to evaluate a scenario from a couple of older cops who were willing to share what they knew. It really is an art and it definitely saved my bacon a number of times! I've never been to New Mexico, but I love the southwest and Carlsbad caverns are on my bucket list! Maybe someday...
Tiny correction. Prep Steps (pyruvate dehydrogenase complex converting pyruvate to acetyl CoA that will later enter Krebs) take place in the matrix of the mitochondria not in the cytoplasm.
Thanks, Talha! So happy to hear it was helpful! I actually made a new (better) version this year, which is linked here. ua-cam.com/video/2_ceHsFmLVk/v-deo.html Good luck studying and sending you love and best wishes from Boston! -BOGO
are you incorrect in the NADH number..seems like we get 2 from the glycolosis but then we lose it in the first reaction then we gain in back in the last for a net gain of 2 not 4.
Hi Kamali; ATP is a molecule that stores energy in its bonds. It works like a universally sized battery; lots of different types of cells can use its power to do helpful things. Cellular respiration recharges the ATP battery, and other cellular activities (e.g. muscle contractions, pumping things etc) deplete it. I actually made a new, better version of this video which explains better: ua-cam.com/video/2_ceHsFmLVk/v-deo.html Sending best wishes from boston! -BOGO
Hi! This is an older video and it doesn't actually show the end of the process! (I made the original in 2 parts for my students) You can see the newer version here: ua-cam.com/video/2_ceHsFmLVk/v-deo.html Hint: Look at 1:16 of this video. The reagents are on the left and the outputs on the right. How much glucose and oxygen do you see coming out of the mitochondria at the end of respiration?
38 is the perfect, ideal scenario. In reality the ETC isn't perfectly efficient. Membranes are leaky and protons are sneaky little buggers. Sometimes when the membrane isn't paying close attention, they'll slip through without passing through ATP synthase. Hope that helps!
It's actually the reverse! Think about an apple tree and a human. The apple tree takes sunlight, does photosynthesis magic and converts that energy into glucose. Humans, however, won't make any glucose no matter how long they sit in the sun. All we can do is take glucose that something else made and convert its energy into ATP energy for our cells to use. Hope this helps; I made a couple other videos on the details of photosynthesis if you need it. (Try this one, it's the most basic: ua-cam.com/video/xmfhKbmQhq0/v-deo.html&ab_channel=BOGObiology)
I think they mean a net of 1 NADH? I'm not sure the source Google is getting it from is right, considering there are 4 NADH by the time the Kreb Cycle starts.
"Take glucose, add oxygen, then a miracle happens, and ATP is recharged". OK, ok. That was rude of me. Here, this is the updated version of the video, which should help. ua-cam.com/video/2_ceHsFmLVk/v-deo.html
Thanks, bts! I'm actually working on an updated, more detailed version as we speak. I wanted cleaner drawings and better sound! Sending best wishes from Boston! -BOGO
Loved it, thanks!!👌👍❤️🌹
promotion smh
This is by far the most, concise, informative, easy to understand screencast/video i've seen on this topic. Thank you for the time you spent to make this. In Bio 20 and have a quiz tomorrow!
Thanks, Val! Please feel free to share!
will do!
I'm learning this right now in my college Biology III class. This video helped me understand cellular respiration more than any of the videos I've seen before!
Thanks, Nyxia! Glad it was useful. I actually made an updated version of this where you CAN'T hear my students squealing in the background and all the graphics are much tidier. It's linked here. ua-cam.com/video/2_ceHsFmLVk/v-deo.html&ab_channel=BOGObiology
Sending love from Boston! -BOGO
Bro I’m learning this in sophomore biology 1
BLESS YOU ALL FOR THIS!!!
Thanks, Leanna! Sending love from Boston! -BOGO
The best video on youtube for aerobic cellular respiration! Thank you
No, THIS is the best video for aerobic cellular respiration! ua-cam.com/video/2_ceHsFmLVk/v-deo.html But you're welcome ; )
Thanks
You definitely deserve more views 👌
Thanks, Mansee! I keep meaning to make a newer version of this video (I made this in my tiny, noisy teacher's office between classes!) Someday maybe I'll have time!
Wow !! This is an amazing video!!
Hello again! Glad you found the more recent version of this video; this is the original one I made quickly in between classes, which is why it's so messy. (No mnemonics here haha) Take care!
This is awesome! I loved it. Thanks
Thanks this is amazing video because i understand aerobic respiration
Thanks, Nandini! I actually made a new version, which is linked here ua-cam.com/video/2_ceHsFmLVk/v-deo.html&ab_channel=BOGObiology
It's tidier and has better graphics.
Inshort
Input : Glucose + 2 ATP + 2 NAD+
Output : 2 ATP + 4 NADH
I actually used to have my students figure out "equations" for these using little icons to keep track of everything. There's also a new (better) version of this video at ua-cam.com/video/2_ceHsFmLVk/v-deo.html that has a whole grid to help you keep track of the ATPs, NADHs, and FADH2s . Take care and sending love from Boston! -BOGO
Easy to understand and comprehend. Thanks
Thanks, Michael! I'm working hard on an updated video that will have better diagrams and a more comprehensive approach. If only there were more hours in the day!! Sending best wishes from Boston! -BOGO
@@BOGObiology Well your videos are awesome!! They're helping me out tremendously with my course curriculum. Keep them coming.
@@mtalbert1000 Thanks! That makes me super happy. Out of curiosity, are you in high school or at university, what courses are you taking, and where are you writing from?
@@BOGObiology I'm actually writing from the Land of Enchantment/New Mexico. I retired from law enforcement and started a new career in health care. I'm currently taking chemistry and anatomy/physiology. I actually graduated from college back in 1994. Also science was not my favorite subject. Therefore your videos are instrumental and easy to understand. I need all the assistance I can get. Ha
@@mtalbert1000 Sounds like a really interesting journey! I worked in emergency services as a medic for a number of years and also taught in juvenile hall before moving to teaching at a regular school. I learned a TON about negotiation, nonviolent de-escalation, and how to evaluate a scenario from a couple of older cops who were willing to share what they knew. It really is an art and it definitely saved my bacon a number of times!
I've never been to New Mexico, but I love the southwest and Carlsbad caverns are on my bucket list! Maybe someday...
Tiny correction. Prep Steps (pyruvate dehydrogenase complex converting pyruvate to acetyl CoA that will later enter Krebs) take place in the matrix of the mitochondria not in the cytoplasm.
It is located in the cytoplasm
Understood ☺️ u have lovely voice
Really helpful..
Nice presentation mam
Thanks, Talha! So happy to hear it was helpful! I actually made a new (better) version this year, which is linked here. ua-cam.com/video/2_ceHsFmLVk/v-deo.html
Good luck studying and sending you love and best wishes from Boston! -BOGO
Best wishes for you too...mam
Many thanks! So well explained ❤😊
Thank you ma'am.
Thanks a ton!!
You're welcome, Parth! So glad to hear it was helpful. Sending love and best wishes from boston! -BOGO
Thanks a lot..
It was heping. Thank you
are you incorrect in the NADH number..seems like we get 2 from the glycolosis but then we lose it in the first reaction then we gain in back in the last for a net gain of 2 not 4.
Thank you, this have been the only video, which had explain where ATP comes from, so is ATP sunlight or comes from sunlight?
Hi Kamali; ATP is a molecule that stores energy in its bonds. It works like a universally sized battery; lots of different types of cells can use its power to do helpful things. Cellular respiration recharges the ATP battery, and other cellular activities (e.g. muscle contractions, pumping things etc) deplete it. I actually made a new, better version of this video which explains better: ua-cam.com/video/2_ceHsFmLVk/v-deo.html
Sending best wishes from boston! -BOGO
I have a question what is the output of oxygen and output for glucose?
Hi! This is an older video and it doesn't actually show the end of the process! (I made the original in 2 parts for my students) You can see the newer version here: ua-cam.com/video/2_ceHsFmLVk/v-deo.html
Hint: Look at 1:16 of this video. The reagents are on the left and the outputs on the right. How much glucose and oxygen do you see coming out of the mitochondria at the end of respiration?
But the google say that the total number of atp molecules produced in aerobic respiration is 36 not 38
38 is the perfect, ideal scenario. In reality the ETC isn't perfectly efficient. Membranes are leaky and protons are sneaky little buggers. Sometimes when the membrane isn't paying close attention, they'll slip through without passing through ATP synthase. Hope that helps!
Good
doesn't photosynthesis produce ATP not consumes it?
It's actually the reverse! Think about an apple tree and a human. The apple tree takes sunlight, does photosynthesis magic and converts that energy into glucose. Humans, however, won't make any glucose no matter how long they sit in the sun. All we can do is take glucose that something else made and convert its energy into ATP energy for our cells to use. Hope this helps; I made a couple other videos on the details of photosynthesis if you need it. (Try this one, it's the most basic: ua-cam.com/video/xmfhKbmQhq0/v-deo.html&ab_channel=BOGObiology)
👌👌👌👌👌👌👌
Thanks Nagadevi! This is the updated video: ua-cam.com/video/2_ceHsFmLVk/v-deo.html
Google says 1 nadh is produced during the prep steps
I think they mean a net of 1 NADH? I'm not sure the source Google is getting it from is right, considering there are 4 NADH by the time the Kreb Cycle starts.
Thank u
Bop!
Can you paraphrase all of that
"Take glucose, add oxygen, then a miracle happens, and ATP is recharged".
OK, ok. That was rude of me. Here, this is the updated version of the video, which should help. ua-cam.com/video/2_ceHsFmLVk/v-deo.html
helpful
Glad to hear that! Love, Bogo
Thankss
Thanks, bts! I'm actually working on an updated, more detailed version as we speak. I wanted cleaner drawings and better sound! Sending best wishes from Boston! -BOGO
This is our lesson (Grade 9) and I'm really struggling to understand😅😅
clutch
Thanks, Noam!
00:19 neck breaks