Dear Teacher, Your deep understanding of mechanics and the intricate questions you create for your TH-cam channel, "Hold My Biopolar, Watch This!", never fail to amaze us. The way you simplify complex mechanics problems inspires students like me to think critically and deeply about the subject. While pondering over one of your discussions, a fascinating question came to my mind, and I would love to hear your perspective on it: Question: A rotating ceiling fan, which is initially hanging from the ceiling, falls down due to some external factor. Throughout its motion, the fan performs circular rotational translational motion (CRTM). Observation: Just before the fan reaches the ground, its orientation deviates slightly from the vertical. Task: Could you help explain why this deviation occurs just before the fan hits the ground? Furthermore, how can one mathematically represent the trajectory and the forces acting on the fan to quantify this deviation? Looking forward to your expert insights!
Dear Teacher,
Your deep understanding of mechanics and the intricate questions you create for your TH-cam channel, "Hold My Biopolar, Watch This!", never fail to amaze us. The way you simplify complex mechanics problems inspires students like me to think critically and deeply about the subject.
While pondering over one of your discussions, a fascinating question came to my mind, and I would love to hear your perspective on it:
Question:
A rotating ceiling fan, which is initially hanging from the ceiling, falls down due to some external factor. Throughout its motion, the fan performs circular rotational translational motion (CRTM).
Observation: Just before the fan reaches the ground, its orientation deviates slightly from the vertical.
Task:
Could you help explain why this deviation occurs just before the fan hits the ground? Furthermore, how can one mathematically represent the trajectory and the forces acting on the fan to quantify this deviation?
Looking forward to your expert insights!
.....
Hell yeah!!
Hell Yeah!
Bro solve the unsolved question ever 🗿