@INTEGRALPHYSICS The subject was actually mechanics and there we also learnt how to calculate the friction of the rope having F1 and F2 as the force of the 2 masses. Then using the formula F1 = F2 * e^(y*B). e being the Euler number, y the property of the rope and B the angle of the rope at the top in rad. After calculating F1 and F2, we can the calculate the friction by doing Fr = F1 - F2 (assuming that there is no motion in the rope). Another way to calculate Fr = y * Fn where Fn is the force 90 degrees to the surface.
“Babe wake up, new integral physics video just dropped”
Back in the day you watched these to fall asleep, not to wake up.
This was such a well done video, you deserve more subscribers and attention!
Thank you so much!
I remember doing this in school
That means somewhere a physics teacher did their job well!
@INTEGRALPHYSICS The subject was actually mechanics and there we also learnt how to calculate the friction of the rope having F1 and F2 as the force of the 2 masses. Then using the formula F1 = F2 * e^(y*B). e being the Euler number, y the property of the rope and B the angle of the rope at the top in rad. After calculating F1 and F2, we can the calculate the friction by doing Fr = F1 - F2 (assuming that there is no motion in the rope). Another way to calculate Fr = y * Fn where Fn is the force 90 degrees to the surface.
@ INTEGRALPHYSICS, in any case, it was great fun doing these kind of simple calculations
@@INTEGRALPHYSICS Wow, your new video th-cam.com/video/NV1b-OcMW3w/w-d-xo.html was very similar to what I did in school!
yippee this helped me for semester exams
Happy to help.
Didn't work
you're only dumb
it help me and i subscribe you