I'm a high school student from Malaysia. You seem to have a natural knack in teaching Physics. Your tone is not monotonous, I could watch the entire video without losing interest. And your explanations are very detailed, you do not pull figures out of thin air. You analyse them in detail. Keep making videos and thank you!
Thank you sooo much! This makes so much more sense than when I did it in class. It's a lot more detailed than what my professor did and now I can actually understand what he did! Thanks
Heya im glad i found your video, the problem is nearly identical to what I need help with, (mine has different masses). Also, you scared me because the end was coming up and I had no idea what you were going to have to do to solve for acceleration... Thanks for the video
+Hussein Elsherbini In my free body diagram of that block, I included the pulley and the rope connecting the pulley to the block. Therefore, the rope connecting the pulley and the block are INTERNAL. When you write equations for Newton's laws applied to a system, one only includes EXTERNAL forces.
+Hussein Elsherbini You can do it either way. But if you only include the block in the free body diagram, then you will have to draw a separate free body diagram for the pulley and write equations for it.
Could you please tell me how I wold calculate the Kinematic relation if the length of S2 is not equal to S1?I mean both pulleys are closer to each other?
Thanks but I am having hard time to understand the 2:1 relation Between S1 and S2.If The part of the rope after C2 is not equal to S1 then we can not write 2S1 in the length equation.I have the same problem in my Mechanics exercise .But In that case two pulleys are closer to each other.
It's because of the pulley kinematics. When block 2 moves 1 meter, block 2 moves 0.5 meter in the opposite direction. Likewise, there -2:1 ratio of velocities and accelerations.
After 7 years, this explanation is still superb. Cheers!
I'm a high school student from Malaysia. You seem to have a natural knack in teaching Physics. Your tone is not monotonous, I could watch the entire video without losing interest. And your explanations are very detailed, you do not pull figures out of thin air. You analyse them in detail. Keep making videos and thank you!
This channel is a hidden gem.
The part after 7 mins... The finest and simplest explanation I have ever come across for pulley problems....
This video is exactly what I have been looking for, where is part B though :(
Part B: th-cam.com/video/85gmS2wVTBY/w-d-xo.htmlsi=ACnl4qnmzxoHsoZa
Now, You teach the exact same way I teach, detailed, and that makes the concept not only stick better but you'll learn even better yourself:) Thanks
Thank you sooo much! This makes so much more sense than when I did it in class. It's a lot more detailed than what my professor did and now I can actually understand what he did! Thanks
Heya im glad i found your video, the problem is nearly identical to what I need help with, (mine has different masses). Also, you scared me because the end was coming up and I had no idea what you were going to have to do to solve for acceleration... Thanks for the video
Ty! The rope movement explanation is very clear and helped me understand pulley systems!
a round of applause for you man, thank you so much
Great 👍 explanation. That change of rope segments explanation is ultimate. Thank you. 😊☺️
I love how you draw the straight lines
Excellent explanation.. especially the acceleration relationship was elaborated well
Glad it helped.
Awesome. Thank you so much for your help
thanks...this helps during a last minute all nighter..
Thank you so much man. You are really an excellent teacher. Hats off to you Boss.
You're welcome.
Much wow....thank you so much.
thank you
Thank you so much.God bless you🙏🙏🙏
Thank you, it's perfect at all levels! A great help, incredible awesome video!
You're welcome.
You are a life savor bro
Glad to help
Dude your awesome! The constraint problem was annoying me.
Good Explanation bro, Keep it up
Lovely
thanks.it's really helpful...........
Great, thank you!
thank you so much but what's the name of the app you use in this video plz :D
For that video, I used a program called Smooth Draw. Now I'm using Autodesk Sketchbook Pro.
Thank you so much :-*
quick question, on block number 1 there is a rope hanging from the pulley holding the block why dont you take that into account as well?
+Hussein Elsherbini In my free body diagram of that block, I included the pulley and the rope connecting the pulley to the block. Therefore, the rope connecting the pulley and the block are INTERNAL. When you write equations for Newton's laws applied to a system, one only includes EXTERNAL forces.
in this case how do i come to recognize if i should include the whole pulley and the box or just the box. thanks for the response :)
+Hussein Elsherbini You can do it either way. But if you only include the block in the free body diagram, then you will have to draw a separate free body diagram for the pulley and write equations for it.
What if the fixed plane where the rope and top pully are attached is at an angle and not perpendicular to the mass? How does that change the tensions?
I have a video of a more complicated pulley problem for which the blocks are on slopes. You can find it here: th-cam.com/video/8P2eV4-s9AI/w-d-xo.html
extra ordinary very good
thx
wlcm
Could you please tell me how I wold calculate the Kinematic relation if the length of S2 is not equal to S1?I mean both pulleys are closer to each other?
+I Wonder : It's the same. There is no assumption that s1 and s2 are the same or similar.
Thanks but I am having hard time to understand the 2:1 relation Between S1 and S2.If The part of the rope after C2 is not equal to S1 then we can not write 2S1 in the length equation.I have the same problem in my Mechanics exercise .But In that case two pulleys are closer to each other.
Can anybody explain me why a1 is not equal to -a2 here??
It's because of the pulley kinematics. When block 2 moves 1 meter, block 2 moves 0.5 meter in the opposite direction. Likewise, there -2:1 ratio of velocities and accelerations.
Also There are Two Strings,look carefully