Woww finally I could understand Bernoulli's Principle sir. It's a super clear explanation with plenty of examples/applications in real life. Thank you so much. But I still have a doubt in one part. Can you please help me? I just want to know why is the pressure low when the velocity is high and vice versa?
Thank you for your kind words! I'm so glad the video has helped with your understanding. 😊 I'm afraid I have not come across an explanation as to why the pressure is actually low when velocity is high. If you find one, do let me know!
Although the air in the tube is part of the atmosphere, it is not still air. Air is flowing as a fluid in the tube. Therefore, the pressure of air in the tube is not the same as the still air in the atmosphere.
In that case, air will be the fluid flowing, and the same principle applies. The first column will have the highest air pressure, followed by the second, then the third. This is due to the increasing pressure drop further away from the source. I assume you're talking about the Bernoulli equation? That's a whole other video.
wonderful illustration sir
Thanks a lot teacher,easy to understand
Perfect!
Woww finally I could understand Bernoulli's Principle sir. It's a super clear explanation with plenty of examples/applications in real life. Thank you so much. But I still have a doubt in one part. Can you please help me? I just want to know why is the pressure low when the velocity is high and vice versa?
Thank you for your kind words! I'm so glad the video has helped with your understanding. 😊 I'm afraid I have not come across an explanation as to why the pressure is actually low when velocity is high. If you find one, do let me know!
@@MrRuelTuition 😅👌sure thank you sir 😊
love your explanation!! but I'm still confused about the differences between air pressure and atmospheric pressure
Although the air in the tube is part of the atmosphere, it is not still air. Air is flowing as a fluid in the tube. Therefore, the pressure of air in the tube is not the same as the still air in the atmosphere.
For the uniform bernoulli's tube, how would that work for air and no water? Also what or how would you manipulate the equation for that?
In that case, air will be the fluid flowing, and the same principle applies. The first column will have the highest air pressure, followed by the second, then the third. This is due to the increasing pressure drop further away from the source. I assume you're talking about the Bernoulli equation? That's a whole other video.
Could I email you regarding a question that I have?
Hi. I'm afraid I wouldn't have the time to reply you. Perhaps you could ask it here? I will do my best to reply you as soon as I can.