Full Course | MHT-CET | Physics | Chapter 1 | Rotational Dynamics | Lecture 3
Timestamps 00:05 One quarter of the disc of mass m is removed if r be the radius of the disc. The new movement of inertia is 2:35 A thin uniform rod AB of mass M and length L is hinged at one end A to the level floor. Initially it stands vertically and is allowed to fall freely to the flow in the vertical plane. The angular velocity of the rod when its end B strikes the floor is 9:54 What is the moment of inertia of solid sphere of density P and radius R about its diameter 13:05 A thin wire of length l and mass m is bent in the form of a semicircle. Its moment of inertia about an axis joining its free ends will be 16:35 Two particles of masses, M1 and M2 are connected by a rigid massless rod of length R to constitute a dumbbell, which is free to move in the plane. The moment of inertia of the dumbbell about an axis perpendicular to the plane passing through the centre of mass is 26:20 Two spheres each of mass M and radius R / 2 are connected with a massless rod of length 2 R as shown in the figure. What will be the moment of inertia of the system about an axis passing through the centre of one of the spheres and perpendicular to the rod 32:18 Three rods each of length l and mass M are placed along the X, Y and Z axes in such a way that one end of each rod is at the origin. The moment of inertia of the system about axis is 37:14 4 thin rods of same mass M and same length L form a square, as shown in the figure. Moment of inertia of this system about an axis through Centre O and perpendicular to its plane is 40:50 Two discs of same material and thickness have radii 02 m and 0.6 m. Their moments of inertia about their axis will be in the ratio 44:37 A rod of length L and Mass M is bent to form a semicircular ring, as shown. The moment of inertia about XY is 45:02 Angular momentum is conserved 45:30 A round disc of moment of inertia I_2 about its axis perpendicular to its plane and passing through its centre is placed over another disc of moment of inertia I_1 rotating with an angular velocity ω about the same axis. The final angular velocity of the combination of discs is 🔊Subscribe : / @venkypunjabi 🔊Instagram: https://www.youtube.com/redirect?even... 🔊Download the App: https://www.youtube.com/redirect?even... 👇Important Playlists👇 👉 NEET MCQs Crash Course • NEET Crash Course| Gravitation | MCQ'... 👉 12 th JEE/ NEET Full Course 2023-24 • Physics | JEE/NEET | Magnetic Fields ... 👉11th JEE Full Course • Physics | NEET/JEE | Laws of Motion |... 👉 MHT-CET Physics MCQs 2023-2024 • MHT-CET | 11 Physics | Chapter 4 | La... 👉 11th Physics | Maharashtra Board | Complete Course • 11 HSC | Physics | Chapter 4 | Laws o... 👉 One Shot |12th Physics | Maharashtra Board | Full Course • Maharashtra Board | One Shot | Chapte... 📢To stay updated on the latest information, videos related to board exams, 12 Board preparations, and JEE / NEET preparations, make sure to subscribe to the channel. For those who are already subscribed, stay connected as we will be bringing you more strategy and preparation videos, along with live classes. Don't hesitate to share the videos with your friends and classmates to spread the word. ______________________________________________________________________________________ ______________________________________________________________________________________ 👇Important Videos ( Chapter Wise ) 👇 📚 Laws of motion | Lecture 1 | MHT-CET | 11 Physics | Chapter 4 | • MHT-CET | 11 Physics | Chapter 4 | La... 📚 Laws of motion | Lecture 2 | MHT-CET | 11 Physics | Chapter 4 | • MHT-CET | 11 Physics | Chapter 4 | La... Thank you all for tuning in to watch the video. We trust that this session has provided you with a clearer understanding of the topic. Feel free to share your thoughts in the comment section below. #venkatpunjabi #mhtcet2024 #Full Course #rotationaldynamics
