While not everything on the MCAT will be clinically relevant, Poiseuille's law will show up again and again-especially in your Cardiology block in medical school! This is a great one for your long-term tool box.
Your videos are amazing, I can't believe you aren't more famous yet! RUclips algorithm is actually doing a disservice to premed students if it's not recommending you enough, since you are SO helpful. Please know I am very grateful for your channel.
First, thank you for all of these videos you've made! Quick question: you mentioned when solving your example problem that pressure must drop in order to compensate for an increase in radius, but isn't the opposite true? If radius increases -> area increases -> therefore velocity must drop in order to maintain constant flow (according to the continuity equation). Also, since velocity drops -> pressure must also rise in order to make sure that we follow conservation of energy (Venturi effect - also explained through Bernoulli's Equation -> KE drops, therefore, Pressure rises (height won't spontaneously change)). Maybe this isn't such a quick question actually.
While not everything on the MCAT will be clinically relevant, Poiseuille's law will show up again and again-especially in your Cardiology block in medical school! This is a great one for your long-term tool box.
Your channel is so highly underrated!! Thank you for posting such quality content
Thank you so much! I really appreciate it!
Your videos are amazing, I can't believe you aren't more famous yet! RUclips algorithm is actually doing a disservice to premed students if it's not recommending you enough, since you are SO helpful. Please know I am very grateful for your channel.
Wow, thank you! Hitting the like button and sharing with others is the #1 way to help the channel out!
I will definitely do that, you are a God-send!
thanks for the straightforward videos!
You're very welcome! Feel free to leave any questions, related or unrelated to the video!
First, thank you for all of these videos you've made! Quick question: you mentioned when solving your example problem that pressure must drop in order to compensate for an increase in radius, but isn't the opposite true? If radius increases -> area increases -> therefore velocity must drop in order to maintain constant flow (according to the continuity equation). Also, since velocity drops -> pressure must also rise in order to make sure that we follow conservation of energy (Venturi effect - also explained through Bernoulli's Equation -> KE drops, therefore, Pressure rises (height won't spontaneously change)). Maybe this isn't such a quick question actually.
Gud
Thanks!